﻿/***************************************************************************
 *   Copyright (C) 2023 by Abderrahman Taha                                *
 *                                                                         *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 *   This program is distributed in the hope that it will be useful,       *
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
 *   GNU General Public License for more details.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the                         *
 *   Free Software Foundation, Inc.,                                       *
 *   51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA            *
 ***************************************************************************/
#include "drawingoptions.h"
#include <qmessagebox.h>

static int IndexcurrentComponent = -1;
static int indexcurrentSet = 0;
static int CurrentFormulaType = -1; // 0:Pariso; 1:Parametric; 2:Isosurface
static QTreeWidgetItem *MyselectionItemReference;
static QStringList qlstPos, qlstStep, qlstmin, qlstmax, qlstnames;

// Error messages returned by ErrorMsg():
static const char *ScriptErrorMessage[] =
{
    "SCRIPT_NO_ERROR",      // 0
    "MAXGRID_OUT_OF_RANGE", // 1
    "MAXPT_OUT_OF_RANGE",   // 2
    "MAXTRI_OUT_OF_RANGE",  // 3
    "FXYZ_OUT_OF_RANGE",    // 4
    "FX_OUT_OF_RANGE",
    "XMAX_NBCOMPONENT_MISMATCH",                // 5
    "YMAX_NBCOMPONENT_MISMATCH",                // 6
    "ZMAX_NBCOMPONENT_MISMATCH",                // 7
    "XMIN_NBCOMPONENT_MISMATCH",                // 8
    "YMIN_NBCOMPONENT_MISMATCH",                // 9
    "ZMIN_NBCOMPONENT_MISMATCH",                // 10
    "FY_FX_MISMATCH",                           // 11
    "FZ_FX_MISMATCH",                           // 12
    "FW_FX_MISMATCH",                           // 13
    "UMAX_NBCOMPONENT_MISMATCH",                // 14
    "VMAX_NBCOMPONENT_MISMATCH",                // 15
    "WMAX_NBCOMPONENT_MISMATCH",                // 16
    "UMIN_NBCOMPONENT_MISMATCH",                // 17
    "VMIN_NBCOMPONENT_MISMATCH",                // 18
    "WMIN_NBCOMPONENT_MISMATCH",                // 19
    "GRID_NBCOMPONENT_MISMATCH",                // 20
    "COMPONENT_NBCOMPONENT_MISMATCH",           // 21
    "CND_NBCOMPONENT_MISMATCH",                 // 22
    "NBSLIDERS_OUT_OF_RANGE",                   // 23
    "NBSLIDERSVALUES_OUT_OF_RANGE",             // 24
    "VERTEX_TAB_MEM_OVERFLOW",                  // 25
    "TRIANGLES_TAB_MEM_OVERFLOW",               // 26
    "MINPOLY_TAB_MEM_OVERFLOW",                 // 27
    "POLY_TAB_MEM_OVERFLOW",                    // 28
    "CND_TAB_MEM_OVERFLOW",                     // 29
    "CND_POL_MEM_OVERFLOW",                     // 30
    "DEFINED_PARAM_GRID_VERTEX_TAB_OVERFLOW",   // 31
    "DEFINED_PARAM_GRID_TRIANGLE_TAB_OVERFLOW", // 32
    "GRID_SUPERIOR_TO_GRIDMAX",                 // 33
    "Vect_DIMENSION_ERROR",                     // 34
    "Not enough memory available to complete this operation", // 35
    "EMPTY_MANDATORY_FIELD"                     // 36
};

void DrawingOptions::ErrorMsg() const
{
    QMessageBox msgBox;
    if (scriptErrorType != SCRIPT_NO_ERROR)
    {
        msgBox.setText(ScriptErrorMessage[scriptErrorType]);
        msgBox.exec();
    }
}

void DrawingOptions::MemoryErrorMsg(int err) const
{
    QMessageBox msgBox;
    if (err != SCRIPT_NO_ERROR)
    {
        msgBox.setText(ScriptErrorMessage[err]);
        msgBox.exec();
    }
}

void DrawingOptions::editorwin()
{
    editor *editorwindow = new editor();
    editorwindow->show();
}

void DrawingOptions::videoplay()
{
    QImage buf = MathmodRef->Copyscreenshot();
    screenimage *player = new screenimage(buf);
    player->connectcontrols();
    player->show();
}

DrawingOptions::~DrawingOptions()
{
    delete[] SliderArray;
}

DrawingOptions::DrawingOptions(QWidget *parent) : QMainWindow(parent)
{
    ui.setupUi(this);
    IndexcurrentComponent = -1;
    IsolistItemRef = nullptr;
    select.selectedoptions.showall = false;
    select.selectedoptions.sensitive = false;
    select.selectedoptions.AND = true;
    select.selectedoptions.parsefunctions = true;
    select.selectedoptions.parsenames = true;
    select.selectedoptions.parsecmpnames = true;
    connect(sliderconf.ui.SaveButton, SIGNAL(clicked()), this,SLOT(update_slider_param()));
    connect(sliderconf.ui.ParametersComboBox, SIGNAL(activated(int)), this,SLOT(update_infos_param(int)));
    connect(addnewparam.ui.SaveButton, SIGNAL(clicked()), this,SLOT(add_new_param()));
    connect(&select, SIGNAL(UpdateSignal()), this, SLOT(SearchListModels()));
    SaveSlidersRef();
    BuildAllVect();
    ui.ObjectClasseCurrent->hide();
    ui.ObjectClasseCurrent->header()->setSectionResizeMode(QHeaderView::ResizeToContents);
}

void DrawingOptions::SaveSlidersRef(int nb)
{
    SliderArray = new SliderStruct[nb];

    SliderArray[0].SliderScrollBar = ui.C1ScrollBar;
    SliderArray[0].SliderLabel = ui.C1label;
    SliderArray[0].SliderLabelMax = ui.C1labelMax;
    SliderArray[0].SliderLabelMin = ui.C1labelMin;
    SliderArray[0].SliderGroupeBox = ui.groupBox_9;

    SliderArray[1].SliderScrollBar = ui.C2ScrollBar;
    SliderArray[1].SliderLabel = ui.C2label;
    SliderArray[1].SliderLabelMax = ui.C2labelMax;
    SliderArray[1].SliderLabelMin = ui.C2labelMin;
    SliderArray[1].SliderGroupeBox = ui.groupBox_10;

    SliderArray[2].SliderScrollBar = ui.C3ScrollBar;
    SliderArray[2].SliderLabel = ui.C3label;
    SliderArray[2].SliderLabelMax = ui.C3labelMax;
    SliderArray[2].SliderLabelMin = ui.C3labelMin;
    SliderArray[2].SliderGroupeBox = ui.groupBox_11;

    SliderArray[3].SliderScrollBar = ui.C4ScrollBar;
    SliderArray[3].SliderLabel = ui.C4label;
    SliderArray[3].SliderLabelMax = ui.C4labelMax;
    SliderArray[3].SliderLabelMin = ui.C4labelMin;
    SliderArray[3].SliderGroupeBox = ui.groupBox_12;

    SliderArray[4].SliderScrollBar = ui.C5ScrollBar;
    SliderArray[4].SliderLabel = ui.C5label;
    SliderArray[4].SliderLabelMax = ui.C5labelMax;
    SliderArray[4].SliderLabelMin = ui.C5labelMin;
    SliderArray[4].SliderGroupeBox = ui.groupBox_13;

    SliderArray[5].SliderScrollBar = ui.C6ScrollBar;
    SliderArray[5].SliderLabel = ui.C6label;
    SliderArray[5].SliderLabelMax = ui.C6labelMax;
    SliderArray[5].SliderLabelMin = ui.C6labelMin;
    SliderArray[5].SliderGroupeBox = ui.groupBox_14;

    SliderArray[6].SliderScrollBar = ui.C7ScrollBar;
    SliderArray[6].SliderLabel = ui.C7label;
    SliderArray[6].SliderLabelMax = ui.C7labelMax;
    SliderArray[6].SliderLabelMin = ui.C7labelMin;
    SliderArray[6].SliderGroupeBox = ui.groupBox_15;

    SliderArray[7].SliderScrollBar = ui.C8ScrollBar;
    SliderArray[7].SliderLabel = ui.C8label;
    SliderArray[7].SliderLabelMax = ui.C8labelMax;
    SliderArray[7].SliderLabelMin = ui.C8labelMin;
    SliderArray[7].SliderGroupeBox = ui.groupBox_16;

    SliderArray[8].SliderScrollBar = ui.C9ScrollBar;
    SliderArray[8].SliderLabel = ui.C9label;
    SliderArray[8].SliderLabelMax = ui.C9labelMax;
    SliderArray[8].SliderLabelMin = ui.C9labelMin;
    SliderArray[8].SliderGroupeBox = ui.groupBox_17;

    SliderArray[9].SliderScrollBar = ui.C10ScrollBar;
    SliderArray[9].SliderLabel = ui.C10label;
    SliderArray[9].SliderLabelMax = ui.C10labelMax;
    SliderArray[9].SliderLabelMin = ui.C10labelMin;
    SliderArray[9].SliderGroupeBox = ui.groupBox_18;

    SliderArray[10].SliderScrollBar = ui.C11ScrollBar;
    SliderArray[10].SliderLabel = ui.C11label;
    SliderArray[10].SliderLabelMax = ui.C11labelMax;
    SliderArray[10].SliderLabelMin = ui.C11labelMin;
    SliderArray[10].SliderGroupeBox = ui.groupBox_19;

    SliderArray[11].SliderScrollBar = ui.C12ScrollBar;
    SliderArray[11].SliderLabel = ui.C12label;
    SliderArray[11].SliderLabelMax = ui.C12labelMax;
    SliderArray[11].SliderLabelMin = ui.C12labelMin;
    SliderArray[11].SliderGroupeBox = ui.groupBox_20;

    SliderArray[12].SliderScrollBar = ui.C13ScrollBar;
    SliderArray[12].SliderLabel = ui.C13label;
    SliderArray[12].SliderLabelMax = ui.C13labelMax;
    SliderArray[12].SliderLabelMin = ui.C13labelMin;
    SliderArray[12].SliderGroupeBox = ui.groupBox_21;

    SliderArray[13].SliderScrollBar = ui.C14ScrollBar;
    SliderArray[13].SliderLabel = ui.C14label;
    SliderArray[13].SliderLabelMax = ui.C14labelMax;
    SliderArray[13].SliderLabelMin = ui.C14labelMin;
    SliderArray[13].SliderGroupeBox = ui.groupBox_22;

    SliderArray[14].SliderScrollBar = ui.C15ScrollBar;
    SliderArray[14].SliderLabel = ui.C15label;
    SliderArray[14].SliderLabelMax = ui.C15labelMax;
    SliderArray[14].SliderLabelMin = ui.C15labelMin;
    SliderArray[14].SliderGroupeBox = ui.groupBox_23;

    SliderArray[15].SliderScrollBar = ui.C16ScrollBar;
    SliderArray[15].SliderLabel = ui.C16label;
    SliderArray[15].SliderLabelMax = ui.C16labelMax;
    SliderArray[15].SliderLabelMin = ui.C16labelMin;
    SliderArray[15].SliderGroupeBox = ui.groupBox_24;

    SliderArray[16].SliderScrollBar = ui.C17ScrollBar;
    SliderArray[16].SliderLabel = ui.C17label;
    SliderArray[16].SliderLabelMax = ui.C17labelMax;
    SliderArray[16].SliderLabelMin = ui.C17labelMin;
    SliderArray[16].SliderGroupeBox = ui.groupBox_25;

    SliderArray[17].SliderScrollBar = ui.C18ScrollBar;
    SliderArray[17].SliderLabel = ui.C18label;
    SliderArray[17].SliderLabelMax = ui.C18labelMax;
    SliderArray[17].SliderLabelMin = ui.C18labelMin;
    SliderArray[17].SliderGroupeBox = ui.groupBox_26;

    SliderArray[18].SliderScrollBar = ui.C19ScrollBar;
    SliderArray[18].SliderLabel = ui.C19label;
    SliderArray[18].SliderLabelMax = ui.C19labelMax;
    SliderArray[18].SliderLabelMin = ui.C19labelMin;
    SliderArray[18].SliderGroupeBox = ui.groupBox_27;

    SliderArray[19].SliderScrollBar = ui.C20ScrollBar;
    SliderArray[19].SliderLabel = ui.C20label;
    SliderArray[19].SliderLabelMax = ui.C20labelMax;
    SliderArray[19].SliderLabelMin = ui.C20labelMin;
    SliderArray[19].SliderGroupeBox = ui.groupBox_28;
}

void DrawingOptions::on_xyzg_valueChanged(int value)
{
    ui.Isogroupbox->setTitle("Grid/MaxGrid = (" +
                             QString::number(ui.xyzg->value()) + " / " +
                             QString::number(Parameters->IsoMaxGrid) + ")");
    if (!MathmodRef->IsoObjet->isRunning())
    {
        (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray()) ?
        MathmodRef->xyzg_valueChanged(value, PARISO_TYPE) : MathmodRef->xyzg_valueChanged(value, ISO_TYPE);
    }
    else
    {
        ui.ChangeGrid->blockSignals(true);
        ui.ChangeGrid->setChecked(false);
        ui.ChangeGrid->blockSignals(false);
        MathmodRef->xyzactivated = -1;
    }
}

void DrawingOptions::on_ChangeGrid_clicked()
{
    (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray()) ?
    MathmodRef->slot_checkBox73_clicked(PARISO_TYPE) : MathmodRef->slot_checkBox73_clicked(ISO_TYPE);
}

void DrawingOptions::AddParObjectToTree(QTreeWidgetItem *paramlistItem,
                                        TreeStruct &currentstruct)
{
    if (!currentstruct.name.empty())
        paramlistItem->setText(0, currentstruct.name[0]);
    QColor greenColor = QColor(0, 255, 0, 50);
    paramlistItem->setBackground(0, greenColor);

    if (currentstruct.Component.size() > 0)
    {
        QTreeWidgetItem *cmpitem = new QTreeWidgetItem(paramlistItem);
        cmpitem->setText(0, "Components (" +QString::number(currentstruct.Component.size()) +"):");

        for (int j = 0; j < currentstruct.Component.size(); j++)
        {
            QTreeWidgetItem *cmpitem2 = new QTreeWidgetItem(cmpitem);
            cmpitem2->setText(0, currentstruct.Component.at(j));
            QTreeWidgetItem *cmpitem3 = new QTreeWidgetItem(cmpitem2);
            cmpitem3->setText(0, "fx(u,v,t) = " + currentstruct.fx.at(j));
            QTreeWidgetItem *cmpitem4 = new QTreeWidgetItem(cmpitem2);
            cmpitem4->setText(0, "fy(u,v,t) = " + currentstruct.fy.at(j));
            QTreeWidgetItem *cmpitem5 = new QTreeWidgetItem(cmpitem2);
            cmpitem5->setText(0, "fz(u,v,t) = " + currentstruct.fz.at(j));
            if (MathmodRef->RootObjet.CurrentJsonObject["Param4D"].isObject())
            {
                QTreeWidgetItem *cmpitem8 = new QTreeWidgetItem(cmpitem2);
                cmpitem8->setText(0, "fw(u,v,t) = " + currentstruct.fw.at(j));
            }
            QTreeWidgetItem *cmpitem6 = new QTreeWidgetItem(cmpitem2);
            cmpitem6->setText(0, "U = [" + currentstruct.umin.at(j) + ", " +currentstruct.umax.at(j) + "]");
            QTreeWidgetItem *cmpitem7 = new QTreeWidgetItem(cmpitem2);
            cmpitem7->setText(0, "V = [" + currentstruct.vmin.at(j) + ", " +currentstruct.vmax.at(j) + "]");
            // Grid resolution:
            if (currentstruct.Grid.size() > 0 &&(2 * j + 1) < currentstruct.Grid.size() &&
                    !MathmodRef->RootObjet.CurrentJsonObject["Param4D"].isObject())
            {
                QTreeWidgetItem *cmpitem7 = new QTreeWidgetItem(cmpitem2);
                cmpitem7->setText(0, "Grid = (" + currentstruct.Grid.at(2 * j) + " , " +currentstruct.Grid.at(2 * j + 1) + ")");
            }
        }
        // Add Global parameters:
        AddParametersToTree(paramlistItem, currentstruct);
    }
}

void DrawingOptions::AddIsoObjectToTree(QTreeWidgetItem *IsolistItem, TreeStruct &currentstruct)
{
    if (!currentstruct.name.empty())
        IsolistItem->setText(0, currentstruct.name[0]);
    QColor greenColor = QColor(0, 255, 0, 50);
    IsolistItem->setBackground(0, greenColor);
    if (currentstruct.Component.size() > 0)
    {
        QTreeWidgetItem *cmpitem = new QTreeWidgetItem(IsolistItem);
        cmpitem->setText(0, "Components (" +
                         QString::number(currentstruct.Component.size()) +
                         "):");
        for (int j = 0; j < currentstruct.Component.size(); j++)
        {
            QTreeWidgetItem *cmpitem2 = new QTreeWidgetItem(cmpitem);
            cmpitem2->setText(0, currentstruct.Component.at(j));
            QTreeWidgetItem *cmpitem3 = new QTreeWidgetItem(cmpitem2);
            cmpitem3->setText(0, "f(x,y,z) = " + currentstruct.fxyz.at(j));
            QTreeWidgetItem *cmpitem4 = new QTreeWidgetItem(cmpitem2);
            cmpitem4->setText(0, "X = [" + currentstruct.xmin.at(j) + ", " +currentstruct.xmax.at(j) + "]");
            QTreeWidgetItem *cmpitem5 = new QTreeWidgetItem(cmpitem2);
            cmpitem5->setText(0, "Y = [" + currentstruct.ymin.at(j) + ", " +currentstruct.ymax.at(j) + "]");
            QTreeWidgetItem *cmpitem6 = new QTreeWidgetItem(cmpitem2);
            cmpitem6->setText(0, "Z = [" + currentstruct.zmin.at(j) + ", " +currentstruct.zmax.at(j) + "]");
            // Grid resolution:
            if (currentstruct.Grid.size() > 0 && j < currentstruct.Grid.size())
            {
                QTreeWidgetItem *cmpitem7 = new QTreeWidgetItem(cmpitem2);
                cmpitem7->setText(0, "Grid = " + currentstruct.Grid.at(j));
            }
        }
        // Add Global parameters:
        AddParametersToTree(IsolistItem, currentstruct);
    }
}

void DrawingOptions::AddParametersToTree(QTreeWidgetItem *parameterslistItem,
        TreeStruct &currentstruct)
{
    QTreeWidgetItem *parameteritem = new QTreeWidgetItem(parameterslistItem);
    parameteritem->setText(0, "Parameters:");
    int size = 0;

    if ((size = currentstruct.Const.size()) > 0)
    {
        QTreeWidgetItem *cstitem = new QTreeWidgetItem(parameteritem);
        cstitem->setText(0, "Constantes:");
        for (int j = 0; j < size; j++)
        {
            QTreeWidgetItem *cstitem2 = new QTreeWidgetItem(cstitem);
            cstitem2->setText(0, currentstruct.Const.at(j));
        }
    }
    if ((size = currentstruct.Funct.size()) > 0)
    {
        QTreeWidgetItem *fctitem = new QTreeWidgetItem(parameteritem);
        fctitem->setText(0, "Functions:");
        for (int j = 0; j < size; j++)
        {
            QTreeWidgetItem *fctitem2 = new QTreeWidgetItem(fctitem);
            fctitem2->setText(0, currentstruct.Funct.at(j));
        }
    }
}

void DrawingOptions::AddObjectToMySelectionTree()
{
    if (MathmodRef->RootObjet.CurrentJsonObject["Iso3D"].isObject())
    {
        QTreeWidgetItem *isolistItem =
            new QTreeWidgetItem(MyselectionItemReference);
        AddIsoObjectToTree(isolistItem, MathmodRef->RootObjet.CurrentTreestruct);
    }
    else if (MathmodRef->RootObjet.CurrentJsonObject["Param3D"].isObject() ||
             MathmodRef->RootObjet.CurrentJsonObject["Param4D"].isObject() ||
             MathmodRef->RootObjet.CurrentJsonObject["Param3D_C"].isObject() ||
             MathmodRef->RootObjet.CurrentJsonObject["Param4D_C"].isObject())
    {
        QTreeWidgetItem *paramlistItem =
            new QTreeWidgetItem(MyselectionItemReference);
        AddParObjectToTree(paramlistItem, MathmodRef->RootObjet.CurrentTreestruct);
    }
}

void DrawingOptions::UpdateTreeObject()
{
    // Update Object Tree
    if (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray()) // isoObject
    {
        ui.ObjectClasseCurrent->model()->removeRows(
            0, ui.ObjectClasseCurrent->model()->rowCount());
        for (uint i = 0; i < MathmodRef->RootObjet.CurrentParisoTreestruct.size();
                i++)
        {
            QTreeWidgetItem *parisochild = new QTreeWidgetItem(ui.ObjectClasseCurrent);
            if (MathmodRef->RootObjet.CurrentParisoTreestruct[i].type == ISO_TYPE)
                AddIsoObjectToTree(parisochild,MathmodRef->RootObjet.CurrentParisoTreestruct[i]);
            else
                AddParObjectToTree(parisochild,MathmodRef->RootObjet.CurrentParisoTreestruct[i]);
        }
    }
    else
    {
        if (MathmodRef->RootObjet.CurrentJsonObject["Iso3D"].isObject()) // isoObject
        {
            ui.ObjectClasseCurrent->model()->removeRows(0, ui.ObjectClasseCurrent->model()->rowCount());
            QTreeWidgetItem *IsolistItem = new QTreeWidgetItem(ui.ObjectClasseCurrent);
            AddIsoObjectToTree(IsolistItem, MathmodRef->RootObjet.CurrentTreestruct);
        }
        else if (MathmodRef->RootObjet.CurrentJsonObject["Param3D"].isObject() ||
                 MathmodRef->RootObjet.CurrentJsonObject["Param4D"].isObject() ||
                 MathmodRef->RootObjet.CurrentJsonObject["Param3D_C"].isObject() ||
                 MathmodRef->RootObjet.CurrentJsonObject["Param4D_C"].isObject() )
        {
            ui.ObjectClasseCurrent->model()->removeRows(0, ui.ObjectClasseCurrent->model()->rowCount());
            QTreeWidgetItem *paramlistItem =new QTreeWidgetItem(ui.ObjectClasseCurrent);
            AddParObjectToTree(paramlistItem,MathmodRef->RootObjet.CurrentTreestruct);
        }
    }
}

void DrawingOptions::UpdatePar4DModelDetailsPage(TreeStruct &currentstruct)
{
    ui.ParamComponent_2->clear();
    if (!currentstruct.name.empty())
        ui.groupBox->setTitle(currentstruct.name.at(0));
    ui.ParamComponent_2->insertItems(0, currentstruct.Component);
    ui.stackedProperties->setCurrentIndex(3);
    UpdateDescription(0, PAR_4D_TYPE, currentstruct);
}

void DrawingOptions::UpdatePar3DModelDetailsPage(TreeStruct &currentstruct)
{
    ui.ParamComponent->clear();
    if (!currentstruct.name.empty())
        ui.groupBox->setTitle(currentstruct.name.at(0));
    ui.ParamComponent->insertItems(0, currentstruct.Component);
    ui.stackedProperties->setCurrentIndex(2);
    ui.ShowParComp->setChecked(true);
    ui.ShowParComp->setText("Show");
    UpdateDescription(0, PAR_TYPE, currentstruct);
}

void DrawingOptions::UpdateIsoModelDetailsPage(TreeStruct &currentstruct)
{
    ui.stackedProperties->setCurrentIndex(1);
    if (!currentstruct.name.empty())
        ui.groupBox->setTitle(currentstruct.name.at(0));
    ui.IsoComponent->clear();
    ui.IsoComponent->insertItems(0, currentstruct.Component);
    ui.ShowIsoComp->setChecked(true);
    ui.ShowIsoComp->setText("Show");
    UpdateDescription(0, ISO_TYPE, currentstruct);
}

void DrawingOptions::UpdateScriptEditorAndTreeObject()
{
    // Update the current Tree Object:
    if (ShowCurrentObjectTree)
        UpdateTreeObject();
    // Update the "Script Edit" page
    ui.ScriptEditor->setText(MathmodRef->RootObjet.CurrentTreestruct.text);
    // Update the "Model Details" page
    if (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray())
    {
        ui.parisocomboBox->clear();
        if (MathmodRef->RootObjet.CurrentParisoTreestruct.size() > 0)
        {
            for (uint i = 0; i < MathmodRef->RootObjet.CurrentParisoTreestruct.size();i++)
                ui.parisocomboBox->insertItem(i, MathmodRef->RootObjet.CurrentParisoTreestruct[i].name[0]);
            if (MathmodRef->RootObjet.CurrentParisoTreestruct[0].fxyz.size() != 0)
                UpdateIsoModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[0]);
            else if (MathmodRef->RootObjet.CurrentParisoTreestruct[0].fw.size() != 0)
                UpdatePar4DModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[0]);
            else if (MathmodRef->RootObjet.CurrentParisoTreestruct[0].fx.size() != 0)
                UpdatePar3DModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[0]);
        }
    }
    else if (MathmodRef->RootObjet.CurrentJsonObject["Iso3D"].isObject())
        UpdateIsoModelDetailsPage(MathmodRef->RootObjet.CurrentTreestruct);
    else if (MathmodRef->RootObjet.CurrentJsonObject["Param3D"].isObject() ||
             MathmodRef->RootObjet.CurrentJsonObject["Param3D_C"].isObject())
        UpdatePar3DModelDetailsPage(MathmodRef->RootObjet.CurrentTreestruct);
    else if (MathmodRef->RootObjet.CurrentJsonObject["Param4D"].isObject() ||
             MathmodRef->RootObjet.CurrentJsonObject["Param4D_C"].isObject())
        UpdatePar4DModelDetailsPage(MathmodRef->RootObjet.CurrentTreestruct);
    else
        ui.stackedProperties->setCurrentIndex(0);
}

void DrawingOptions::HideSliders()
{
    ui.groupBox_9->hide();
    ui.groupBox_10->hide();
    ui.groupBox_11->hide();
    ui.groupBox_12->hide();
    ui.groupBox_13->hide();
    ui.groupBox_14->hide();
    ui.groupBox_15->hide();
    ui.groupBox_16->hide();
    ui.groupBox_17->hide();
    ui.groupBox_18->hide();
    ui.groupBox_19->hide();
    ui.groupBox_20->hide();
    ui.groupBox_21->hide();
    ui.groupBox_22->hide();
    ui.groupBox_23->hide();
    ui.groupBox_24->hide();
    ui.groupBox_25->hide();
    ui.groupBox_26->hide();
    ui.groupBox_27->hide();
    ui.groupBox_28->hide();
    ui.PredefinedSets->clear();
    ui.PredefinedSets->addItem("Predefined Sets");
    ui.ParametersList->clear();
    ui.ParametersList->addItem("Parameters List");
    sliderconf.ui.ParametersComboBox->clear();
    sliderconf.ui.ParametersComboBox->addItem("Parameters List");
}

void DrawingOptions::ObjArrayToString(QJsonArray &lst, QString &str)
{
    str = "";
    for (int j = 0; j < lst.size() - 1; j++)
        str += lst[j].toString() + ";";
    if (lst.size() >= 1)
        str += lst[lst.size() - 1].toString();
    str.replace("\n", "");
    str.replace("\t", "");
    str.replace(" ", "");
}

void DrawingOptions::ShowSliders(const QJsonObject &Jobj)
{
    QString result;
    QJsonArray lst;
    QJsonObject QObj;
    if (Jobj["Sliders"].isObject())
    {
        // Hide all sliders
        HideSliders();
        QObj = Jobj["Sliders"].toObject();
        // Min
        lst = QObj["Min"].toArray();
        ObjArrayToString(lst, result);
        qlstmin = result.split(";", Qt::SkipEmptyParts);
        // Max
        lst = QObj["Max"].toArray();
        ObjArrayToString(lst, result);
        qlstmax = result.split(";",Qt::SkipEmptyParts);
        // Position
        lst = QObj["Position"].toArray();
        ObjArrayToString(lst, result);
        qlstPos = result.split(";",Qt::SkipEmptyParts);
        for (int i = 0; i < qlstPos.size(); ++i)
        {
            MathmodRef->IsoObjet->masterthread->SliderValues.push_back(
                qlstPos.at(i).toDouble());
            MathmodRef->ParObjet->masterthread->SliderValues.push_back(
                qlstPos.at(i).toDouble());
        }
        // Name
        lst = QObj["Name"].toArray();
        ObjArrayToString(lst, result);
        qlstnames = result.split(";",Qt::SkipEmptyParts);
        for (int i = 0; i < qlstnames.size(); ++i)
        {
            MathmodRef->IsoObjet->masterthread->SliderNames.push_back(
                qlstnames.at(i).toStdString());
            MathmodRef->ParObjet->masterthread->SliderNames.push_back(
                qlstnames.at(i).toStdString());
        }
        MathmodRef->IsoObjet->masterthread->Nb_Sliders =
            uint(qlstnames.size());
        MathmodRef->ParObjet->masterthread->Nb_Sliders =
            uint(qlstnames.size());
        ui.ParametersList->clear();
        ui.ParametersList->addItem("Parameters List  (" +
                                   QString::number(qlstnames.size()) + ")");
        ui.ParametersList->addItems(qlstnames);
        sliderconf.ui.ParametersComboBox->clear();
        sliderconf.ui.ParametersComboBox->addItem(
            "Parameters List  (" + QString::number(qlstnames.size()) + ")");
        sliderconf.ui.ParametersComboBox->addItems(qlstnames);
        // Step
        lst = QObj["Step"].toArray();
        ObjArrayToString(lst, result);
        qlstStep = result.split(";",Qt::SkipEmptyParts);
        QStringList qlist;
        if (qlstPos.size() >= qlstnames.size())
        {
            ui.PredefinedSets->clear();
            int NbSets = (qlstPos.size() == 0 || qlstnames.size() == 0)
                         ? 0
                         : qlstPos.size() / qlstnames.size();
            qlist += "Predefined Sets (" + QString::number(NbSets) + ")";
            if (QObj["SetNames"].isArray() &&
                    (lst = QObj["SetNames"].toArray()).size())
            {
                ObjArrayToString(lst, result);
                qlist += result.split(";",Qt::SkipEmptyParts);
            }
            else
            {
                for (int i = 1; i < NbSets + 1; i++)
                {
                    qlist += "Set_" + QString::number(i);
                }
            }
            ui.PredefinedSets->addItems(qlist);
        }
        for (int sl = 0; sl < 20; sl++)
        {
            if (qlstnames.size() >= (sl + 1))
            {
                (SliderArray[sl].SliderScrollBar)->blockSignals(true);
                (SliderArray[sl].SliderScrollBar)->setMaximum(qlstmax.at(sl).toInt());
                (SliderArray[sl].SliderScrollBar)->setMinimum(qlstmin.at(sl).toInt());
                (SliderArray[sl].SliderScrollBar)
                ->setSingleStep(qlstStep.at(sl).toInt());
                (SliderArray[sl].SliderScrollBar)->setPageStep(qlstStep.at(sl).toInt());
                (SliderArray[sl].SliderScrollBar)
                ->setSliderPosition(qlstPos.at(sl).toInt());
                (SliderArray[sl].SliderLabel)
                ->setText(qlstnames.at(sl) + " = " + qlstPos.at(sl) + "(" +
                          qlstStep.at(sl) + ")");
                (SliderArray[sl].SliderLabelMin)->setText(qlstmin.at(sl));
                (SliderArray[sl].SliderLabelMax)->setText(qlstmax.at(sl));
                (SliderArray[sl].SliderScrollBar)->blockSignals(false);
                (SliderArray[sl].SliderGroupeBox)->show();
            }
        }
    }
    else
    {
        MathmodRef->IsoObjet->masterthread->Nb_Sliders = 0;
        MathmodRef->ParObjet->masterthread->Nb_Sliders = 0;
        HideSliders();
    }
}

void DrawingOptions::DrawJsonModel(const QJsonObject &Jobj, int textureIndex,
                                   bool Inspect)
{
    if (!MathmodRef->ParObjet->isRunning() &&
            !MathmodRef->IsoObjet->isRunning())
    {
        if (Inspect & !VerifiedJsonModel(Jobj, Inspect))
            return;
        ShowJsonModel(Jobj, textureIndex);
        UpdateScriptEditorAndTreeObject();
    }
}

QString DrawingOptions::MandatoryParFieldToQString(const MandatoryParField &idx)
{
    QString arg = "";
    switch (idx)
    {
    case PAR_FX:
        arg = "Fx";
        break;
    case PAR_FY:
        arg = "Fy";
        break;
    case PAR_FZ:
        arg = "Fz";
        break;
    case PAR_FW:
        arg = "Fw";
        break;
    case PAR_UMAX:
        arg = "Umax";
        break;
    case PAR_UMIN:
        arg = "Umin";
        break;
    case PAR_VMAX:
        arg = "Vmax";
        break;
    case PAR_VMIN:
        arg = "Vmin";
        break;
    case PAR_NAME:
        arg = "Name";
        break;
    case PAR_COMP:
        arg = "Component";
        break;
    }
    return(arg);
}

QString DrawingOptions::MandatoryIsoFieldToQString(const MandatoryIsoField &idx)
{
    QString arg = "";
    switch (idx)
    {
    case ISO_FXYZ:
        arg = "Fxyz";
        break;
    case ISO_XMAX:
        arg = "Xmax";
        break;
    case ISO_YMAX:
        arg = "Ymax";
        break;
    case ISO_ZMAX:
        arg = "Zmax";
        break;
    case ISO_XMIN:
        arg = "Xmin";
        break;
    case ISO_YMIN:
        arg = "Ymin";
        break;
    case ISO_ZMIN:
        arg = "Zmin";
        break;
    case ISO_NAME:
        arg = "Name";
        break;
    case ISO_COMP:
        arg = "Component";
        break;
    }
    return(arg);
}

bool DrawingOptions::VerifyIsoFieldEmptySpace(const QJsonObject &QObj, const MandatoryIsoField &idx)
{
    QString arg = MandatoryIsoFieldToQString(idx);
    for(int i=0; i<(QObj[arg].toArray()).size(); i++)
    {
        if((QObj[arg].toArray())[i].toString().replace(" ","") == "")
        {
            return false;
        }
    }
    return true;
}

bool DrawingOptions::VerifyParFieldEmptySpace(const QJsonObject &QObj, const MandatoryParField &idx)
{
    QString arg = MandatoryParFieldToQString(idx);
    for(int i=0; i<(QObj[arg].toArray()).size(); i++)
    {
        if((QObj[arg].toArray())[i].toString().replace(" ","") == "")
            return false;
    }
    return true;
}

bool DrawingOptions::VerifyParEmptySpace(const QJsonObject& QObj)
{
    for (std::vector<MandatoryParField>::const_iterator it =
                MandParFields.begin();
            it != MandParFields.end(); ++it)
    {
        MandatoryParField Opt = *it;
        if(!VerifyParFieldEmptySpace(QObj, Opt))
            return false;
    }
    return true;
}

bool DrawingOptions::VerifyIsoEmptySpace(const QJsonObject& QObj)
{
    for (std::vector<MandatoryIsoField>::const_iterator it =
                MandIsoFields.begin();
            it != MandIsoFields.end(); ++it)
    {
        MandatoryIsoField Opt = *it;
        if(!VerifyIsoFieldEmptySpace(QObj, Opt))
            return false;
    }
    return true;
}

bool DrawingOptions::VerifiedIsoJsonModel(const QJsonObject &QObj)
{
    QJsonArray lst;
    int NbFxyz;
    if (!VerifyIsoEmptySpace(QObj))
    {
        scriptErrorType = EMPTY_MANDATORY_FIELD;
        ErrorMsg();
        return false;
    }
    // Fxyz
    NbFxyz = (QObj["Fxyz"].toArray()).size();
    if ((QObj["Xmax"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = XMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Ymax"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = YMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Zmax"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = ZMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Xmin"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = XMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Ymin"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = YMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Zmin"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = ZMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Component"].toArray()).size() != NbFxyz)
    {
        scriptErrorType = COMPONENT_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if (((lst = QObj["Grid"].toArray()).size() > 0) && (lst.size() != NbFxyz))
    {
        scriptErrorType = GRID_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    // variables
    if (((lst = QObj["Vect"].toArray()).size() > 1))
    {
        scriptErrorType = VECT_DIMENSION_ERROR;
        ErrorMsg();
        return false;
    }
    if (lst.size() > 0)
    {
        for (int i = 0; i < lst.size(); i++)
            if ((lst[i].toString()).toUInt() >= uint(Parameters->IsoMaxGrid))
            {
                scriptErrorType = GRID_SUPERIOR_TO_GRIDMAX;
                ErrorMsg();
                return false;
            }
    }
    if (((QObj["Cnd"].toArray()).size() > 0) &&
            ((QObj["Cnd"].toArray()).size() != NbFxyz))
    {
        scriptErrorType = CND_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    return true;
}

bool DrawingOptions::VerifiedParJsonModel(const QJsonObject &QObj)
{
    QJsonArray lst;
    int NbFx;
    if (!VerifyParEmptySpace(QObj))
    {
        scriptErrorType = EMPTY_MANDATORY_FIELD;
        ErrorMsg();
        return false;
    }
    // Fx
    NbFx = (QObj["Fx"].toArray()).size();
    // Fy
    if ((QObj["Fy"].toArray()).size() != NbFx)
    {
        scriptErrorType = FY_FX_MISMATCH;
        ErrorMsg();
        return false;
    }
    // Fz
    if ((QObj["Fz"].toArray()).size() != NbFx)
    {
        scriptErrorType = FZ_FX_MISMATCH;
        ErrorMsg();
        return false;
    }
    if (((QObj["Fw"].toArray()).size() != 0) &&
            ((QObj["Fw"].toArray()).size() != NbFx))
    {
        scriptErrorType = FW_FX_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Umax"].toArray()).size() != NbFx)
    {
        scriptErrorType = UMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Vmax"].toArray()).size() != NbFx)
    {
        scriptErrorType = VMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if (((QObj["Wmax"].toArray()).size() > 0) &&
            ((QObj["Wmax"].toArray()).size() != NbFx))
    {
        scriptErrorType = WMAX_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Umin"].toArray()).size() != NbFx)
    {
        scriptErrorType = UMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Vmin"].toArray()).size() != NbFx)
    {
        scriptErrorType = VMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if (((QObj["Wmin"].toArray()).size() > 0) &&
            ((QObj["Wmin"].toArray()).size() != NbFx))
    {
        scriptErrorType = WMIN_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if ((QObj["Component"].toArray()).size() != NbFx)
    {
        scriptErrorType = COMPONENT_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    // Start Grid field processing
    if ((lst = QObj["Grid"].toArray()).size() > 0 && (lst.size() != 2 * NbFx))
    {
        scriptErrorType = GRID_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    if (((lst = QObj["Vect"].toArray()).size() > 1))
    {
        scriptErrorType = VECT_DIMENSION_ERROR;
        ErrorMsg();
        return false;
    }
    if (((QObj["Cnd"].toArray()).size() > 0) &&
            ((QObj["Cnd"].toArray()).size() != NbFx))
    {
        scriptErrorType = CND_NBCOMPONENT_MISMATCH;
        ErrorMsg();
        return false;
    }
    return true;
}

bool DrawingOptions::VerifiedJsonModel(const QJsonObject &Jobj, bool Inspect)
{
    QJsonObject QObj;
    bool verif = false;
    if (!Inspect)
        return true;
    if (Jobj["Iso3D"].isObject())
    {
        QObj = Jobj["Iso3D"].toObject();
        verif = VerifiedIsoJsonModel(QObj);
        if (verif)
        {
            MathmodRef->LocalScene.componentsinfos.pariso = false;
            MathmodRef->LocalScene.componentsinfos.ParisoNbComponents =1;
            MathmodRef->LocalScene.componentsinfos.ParisoCurrentComponentIndex = 0;
        }
        return (verif);
    }
    if (Jobj["Param3D"].isObject() || Jobj["Param3D_C"].isObject() ||
        Jobj["Param4D"].isObject() || Jobj["Param4D_C"].isObject())
    {
        if(Jobj["Param3D"].isObject())
            QObj = Jobj["Param3D"].toObject();
        else if(Jobj["Param4D"].isObject())
                QObj = Jobj["Param4D"].toObject();
        else if(Jobj["Param3D_C"].isObject())
                QObj = Jobj["Param3D_C"].toObject();
        else if(Jobj["Param4D_C"].isObject())
                QObj = Jobj["Param4D_C"].toObject();
        MathmodRef->LocalScene.componentsinfos.ParisoNbComponents = 1;
        verif = VerifiedParJsonModel(QObj);
        if (verif)
        {
            MathmodRef->LocalScene.componentsinfos.pariso = false;
            MathmodRef->LocalScene.componentsinfos.ParisoNbComponents = 1;
            MathmodRef->LocalScene.componentsinfos.ParisoCurrentComponentIndex = 0;
        }
        return (verif);
    }
    if (Jobj["ParIso"].isArray())
    {
        QJsonArray listeObj = Jobj["ParIso"].toArray();
        QJsonArray listeIsoObj;
        QJsonArray listeParObj;
        for (int i = 0; i < listeObj.size(); i++)
            if ((listeObj[i].toObject())["Iso3D"].isObject())
                listeIsoObj.append(listeObj[i].toObject()["Iso3D"].toObject());
            else
                listeParObj.append(listeObj[i].toObject()["Param3D"].toObject());
        MathmodRef->LocalScene.componentsinfos.pariso = true;
        MathmodRef->LocalScene.componentsinfos.ParisoNbComponents = listeIsoObj.size() + listeParObj.size();
        MathmodRef->LocalScene.componentsinfos.ParisoCurrentComponentIndex = 0;
        for (int i = 0; i < listeIsoObj.size(); i++)
            if (!VerifiedIsoJsonModel(listeIsoObj[i].toObject()))
                return (false);
        for (int i = 0; i < listeParObj.size(); i++)
            if (!VerifiedParJsonModel(listeParObj[i].toObject()))
                return (false);
    }
    return true;
}

void DrawingOptions::LoadTexture(const QJsonObject &QObj,
                                 const ModelType &opt)
{
    QString noise1 = QObj["Noise"].toString();
    QJsonArray lst = QObj["Colors"].toArray();
    bool hsv=false;
    noise1.replace("\n", "");
    noise1.replace("\t", "");
    noise1.replace(" ", "");
    QString result;
    ObjArrayToString(lst, result);

    if (opt == ISO_TYPE)
    {
        MathmodRef->IsoObjet->masterthread->Rgbt = result.toStdString();
        MathmodRef->IsoObjet->masterthread->Noise = noise1.toStdString();
        MathmodRef->IsoObjet->masterthread->RgbtSize = uint(lst.size());
    }
    else if (opt == PAR_TYPE || opt == PAR_4D_TYPE)
    {
        MathmodRef->ParObjet->masterthread->Rgbt = result.toStdString();
        MathmodRef->ParObjet->masterthread->Noise = noise1.toStdString();
        MathmodRef->ParObjet->masterthread->RgbtSize = uint(lst.size());
    }
    if((hsv=result.contains("H=")))
        MathmodRef->LocalScene.componentsinfos.hsv.push_back(hsv);
    MathmodRef->RootObjet.CurrentTreestruct.Noise = noise1;
    MathmodRef->RootObjet.CurrentTreestruct.RGBT = result.split(";",Qt::SkipEmptyParts);
}

void DrawingOptions::LoadPigment(const QJsonObject &QObj,
                                 const ModelType &opt)
{
    QString noise = "";
    QJsonArray tmp;
    bool hsv=false;
    QString strtmp = QObj["Gradient"].toString();
    noise = QObj["Noise"].toString();
    QJsonArray lst = QObj["Colors"].toArray();
    QString result = "";
    int VRgbtSize = 0;
    for (int j = 0; j < lst.size(); j++)
    {
        tmp = (lst[j].toObject())["Color"].toObject()["Vrgba"].toArray();
        for (int k = 0; k < tmp.count(); k++)
        {
            result += tmp[k].toString() + ";";
            VRgbtSize++;
        }
    }
    strtmp.replace("\n", "");
    strtmp.replace("\t", "");
    strtmp.replace(" ", "");
    noise.replace("\n", "");
    noise.replace("\t", "");
    noise.replace(" ", "");
    result.replace("\n", "");
    result.replace("\t", "");
    result.replace(" ", "");
    if (opt == ISO_TYPE)
    {
        MathmodRef->IsoObjet->masterthread->Gradient = strtmp.toStdString();
        MathmodRef->IsoObjet->masterthread->VRgbt = result.toStdString();
        MathmodRef->IsoObjet->masterthread->Noise = noise.toStdString();
        MathmodRef->IsoObjet->masterthread->VRgbtSize = uint(VRgbtSize);
    }
    else if (opt == PAR_TYPE || opt == PAR_4D_TYPE)
    {
        MathmodRef->ParObjet->masterthread->Gradient = strtmp.toStdString();
        MathmodRef->ParObjet->masterthread->VRgbt = result.toStdString();
        MathmodRef->ParObjet->masterthread->Noise = noise.toStdString();
        MathmodRef->ParObjet->masterthread->VRgbtSize = uint(VRgbtSize);
    }
    if((hsv=result.contains("H=")))
        MathmodRef->LocalScene.componentsinfos.hsv.push_back(hsv);
    MathmodRef->RootObjet.CurrentTreestruct.Noise = noise;
    MathmodRef->RootObjet.CurrentTreestruct.VRGBT =
        result.split(";",Qt::SkipEmptyParts);
}

void DrawingOptions::ShowJsonModel(const QJsonObject &Jobj, int textureIndex)
{
    QJsonObject QObj, QIso, QPar;
    QJsonObject QTextureObj, QPigmentObj;
    bool loadtext, loadpigm;
    QJsonDocument document;
    if (textureIndex != -1)
    {
        if (textureIndex < 1000)
            QTextureObj = MathmodRef->collection.JTextures[textureIndex]
                          .toObject()["Texture"]
                          .toObject();
        else
            QPigmentObj = MathmodRef->collection.JPigments[textureIndex - 1000]
                          .toObject()["Pigment"]
                          .toObject();
    }
    else
    {
        if (Jobj["Texture"].isObject())
            QTextureObj = Jobj["Texture"].toObject();

        if (Jobj["Pigment"].isObject())
            QPigmentObj = Jobj["Pigment"].toObject();
    }

    ShowSliders(Jobj);
    updateCurrentTreestruct();
    MathmodRef->LocalScene.componentsinfos.ParisoCondition.clear();
    MathmodRef->LocalScene.componentsinfos.hsv.clear();
    if (Jobj["ParIso"].isArray())
    {
        QJsonArray listeObj = Jobj["ParIso"].toArray();
        QJsonArray listeIsoObj;
        QJsonArray listeParObj;
        for (int i = 0; i < listeObj.size(); i++)
            if ((listeObj[i].toObject())["Iso3D"].isObject())
                listeIsoObj.append(listeObj[i].toObject());
            else
                listeParObj.append(listeObj[i].toObject());
        // Right now, we only support pariso object with 1 Iso3D and 1 Param3D objects.
        if (listeParObj.size() > 0)
            QPar = listeParObj[0].toObject();
        if (listeIsoObj.size() > 0)
            QIso = listeIsoObj[0].toObject();
        if (QPar["Texture"].isObject())
            QTextureObj = QPar["Texture"].toObject();
        if (QPar["Pigment"].isObject())
            QPigmentObj = QPar["Pigment"].toObject();
        // Colors
        loadtext = MathmodRef->ParObjet->masterthread->rgbtnotnull =
                       (QPar["Texture"].isObject() ||
                        ((textureIndex < 1000) && (textureIndex != -1)));
        // Pigment
        loadpigm = MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                       (QPar["Pigment"].isObject() ||
                ((textureIndex != -1) && (textureIndex > 999)));
        LoadMandatoryAndOptionnalFields(QPar["Param3D"].toObject(), PAR_TYPE,
                                        loadtext, QTextureObj, loadpigm,
                                        QPigmentObj);
        // Save this Current Parametric Tree struct
        MathmodRef->RootObjet.CurrentParisoTreestruct.push_back(
            MathmodRef->RootObjet.CurrentTreestruct);
        if (QIso["Texture"].isObject())
            QTextureObj = QIso["Texture"].toObject();
        if (QIso["Pigment"].isObject())
            QPigmentObj = QIso["Pigment"].toObject();
        // Colors
        loadtext = MathmodRef->IsoObjet->masterthread->rgbtnotnull =
                       (QIso["Texture"].isObject() ||
                        ((textureIndex < 1000) && (textureIndex != -1)));
        // Pigment
        loadpigm = MathmodRef->IsoObjet->masterthread->vrgbtnotnull =
                       (QIso["Pigment"].isObject() ||
                ((textureIndex != -1) && (textureIndex > 999)));

        LoadMandatoryAndOptionnalFields(QIso["Iso3D"].toObject(), ISO_TYPE,
                                        loadtext, QTextureObj, loadpigm,
                                        QPigmentObj);
        // Save this Current Isosurface Tree struct
        MathmodRef->RootObjet.CurrentParisoTreestruct.push_back(
            MathmodRef->RootObjet.CurrentTreestruct);
        document.setObject(Jobj);
        MathmodRef->RootObjet.CurrentTreestruct.text = QString(document.toJson());
        // Update the current pariso struct
        MathmodRef->RootObjet.CurrentJsonObject = Jobj;
        CurrentFormulaType = 2;
        /// process the new surface
        if (textureIndex == -1)
        {
            MathmodRef->LocalScene.componentsinfos.pariso = true;
            MathmodRef->ParisoObjectProcess();
        }
        ui.parisogroupbox->show();
    }
    else
    {
        ui.parisogroupbox->hide();
        MathmodRef->LocalScene.componentsinfos.pariso = false;
        if (Jobj["Iso3D"].isObject())
        {
            QObj = Jobj["Iso3D"].toObject();

            // Colors
            loadtext = MathmodRef->IsoObjet->masterthread->rgbtnotnull =
                           (Jobj["Texture"].isObject() ||
                            ((textureIndex < 1000) && (textureIndex != -1)));
            // Pigment
            loadpigm = MathmodRef->IsoObjet->masterthread->vrgbtnotnull =
                           (Jobj["Pigment"].isObject() ||
                    ((textureIndex != -1) && (textureIndex > 999)));

            LoadMandatoryAndOptionnalFields(QObj, ISO_TYPE, loadtext, QTextureObj,
                                            loadpigm, QPigmentObj);
            QJsonObject Jobjtmp = Jobj;
            // Some keys cleaning..
            Jobjtmp.remove("ParIso");
            Jobjtmp.remove("Param3D");Jobjtmp.remove("Param3D_C");
            Jobjtmp.remove("Param4D");Jobjtmp.remove("Param4D_C");
            document.setObject(Jobjtmp);
            MathmodRef->RootObjet.CurrentTreestruct.text = QString(document.toJson());
            // Update the current parametric struct
            MathmodRef->RootObjet.CurrentJsonObject = Jobjtmp;
            CurrentFormulaType = 2;
            /// process the new surface
            if (textureIndex == -1)
            {
                if (MathmodRef->RootObjet.CurrentTreestruct.fxyz.count() > 0)
                    MathmodRef->ProcessNewIsoSurface();
            }
            else
            {
                int result = MathmodRef->ParseIso();
                if (result == -1)
                    return;
                textureIndex < 1000
                ? MathmodRef->CalculateTexturePoints(1)
                : MathmodRef->CalculatePigmentPoints(1);
                MathmodRef->LocalScene.componentsinfos.Interleave=true;
                MathmodRef->update();
            }
        }
        else if (Jobj["Param3D"].isObject() || (MathmodRef->ParObjet->masterthread->param3d_C=Jobj["Param3D_C"].isObject()))
        {
            if(Jobj["Param3D"].isObject())
                QObj = Jobj["Param3D"].toObject();
            else
                QObj = Jobj["Param3D_C"].toObject();
            // Colors
            loadtext = MathmodRef->ParObjet->masterthread->rgbtnotnull =
                           (Jobj["Texture"].isObject() ||
                            ((textureIndex < 1000) && (textureIndex != -1)));

            // Pigment
            loadpigm = MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                           (Jobj["Pigment"].isObject() ||
                    ((textureIndex != -1) && (textureIndex > 999)));

            LoadMandatoryAndOptionnalFields(QObj, PAR_TYPE, loadtext, QTextureObj,
                                            loadpigm, QPigmentObj);

            QJsonObject Jobjtmp = Jobj;
            // Some keys cleaning..
            if(Jobj["Param3D"].isObject())
                Jobjtmp.remove("Param3D_C");
            else
                Jobjtmp.remove("Param3D");
            Jobjtmp.remove("ParIso");
            Jobjtmp.remove("Iso3D");
            Jobjtmp.remove("Param4D");

            QJsonDocument document;
            document.setObject(Jobjtmp);
            MathmodRef->RootObjet.CurrentTreestruct.text = QString(document.toJson());

            MathmodRef->RootObjet.CurrentJsonObject = Jobjtmp;
            CurrentFormulaType = 1;
            /// process the new surface
            if (textureIndex == -1)
            {
                MathmodRef->ParametricSurfaceProcess(1);
            }
            else
            {
                int result = MathmodRef->ParsePar();
                if (result == -1)
                    return;
                textureIndex < 1000
                ? MathmodRef->CalculateTexturePoints(0)
                : MathmodRef->CalculatePigmentPoints(0);
                MathmodRef->LocalScene.componentsinfos.Interleave=true;
                MathmodRef->update();
            }
        }
        else if (Jobj["Param4D"].isObject() || (MathmodRef->ParObjet->masterthread->param4d_C=Jobj["Param4D_C"].isObject()))
        {
            if (Jobj["Param4D"].isObject())
                QObj = Jobj["Param4D"].toObject();
            else
                QObj = Jobj["Param4D_C"].toObject();
            // Colors
            loadtext = MathmodRef->ParObjet->masterthread->rgbtnotnull =
                           (Jobj["Texture"].isObject() ||
                            ((textureIndex < 1000) && (textureIndex != -1)));
            // Pigment
            loadpigm = MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                           (Jobj["Pigment"].isObject() ||
                    ((textureIndex != -1) && (textureIndex > 1000)));
            LoadMandatoryAndOptionnalFields(QObj, PAR_4D_TYPE, loadtext, QTextureObj,
                                            loadpigm, QPigmentObj);
            QJsonObject Jobjtmp = Jobj;
            // Some keys cleaning..
            if (Jobj["Param4D"].isObject())
                Jobjtmp.remove("Param4D_C");
            else
                Jobjtmp.remove("Param4D");
            Jobjtmp.remove("Iso3D");
            Jobjtmp.remove("Param3D");

            QJsonDocument document;
            document.setObject(Jobjtmp);
            MathmodRef->RootObjet.CurrentTreestruct.text = QString(document.toJson());
            MathmodRef->RootObjet.CurrentJsonObject = Jobjtmp;
            CurrentFormulaType = 3;
            /// process the new surface
            if (textureIndex == -1)
            {
                MathmodRef->ParametricSurfaceProcess(3);
            }
            else
            {
                int result = MathmodRef->ParsePar();
                if (result == -1)
                    return;
                textureIndex < 1000
                ? MathmodRef->CalculateTexturePoints(0)
                : MathmodRef->CalculatePigmentPoints(0);
                MathmodRef->LocalScene.componentsinfos.Interleave=true;
                MathmodRef->update();
            }
        }
    }
}

void DrawingOptions::updateCurrentTreestruct()
{
    // Initialize the current Object struct
    MathmodRef->RootObjet.CurrentTreestruct
    .fw = MathmodRef->RootObjet.CurrentTreestruct
    .fx = MathmodRef->RootObjet.CurrentTreestruct
    .fy = MathmodRef->RootObjet.CurrentTreestruct.fz =
    MathmodRef->RootObjet.CurrentTreestruct
    .Cnd = MathmodRef->RootObjet.CurrentTreestruct
    .RGBT = MathmodRef->RootObjet.CurrentTreestruct.Const =
    MathmodRef->RootObjet.CurrentTreestruct
    .Funct = MathmodRef->RootObjet.CurrentTreestruct.VRGBT =
    MathmodRef->RootObjet.CurrentTreestruct
    .Gradient = MathmodRef->RootObjet.CurrentTreestruct.fxyz =
    MathmodRef->RootObjet.CurrentTreestruct
    .umin = MathmodRef->RootObjet.CurrentTreestruct.umax =
    MathmodRef->RootObjet.CurrentTreestruct
    .vmin = MathmodRef->RootObjet.CurrentTreestruct.vmax =
    MathmodRef->RootObjet.CurrentTreestruct
    .xmin = MathmodRef->RootObjet.CurrentTreestruct
    .xmax = MathmodRef->RootObjet
    .CurrentTreestruct.ymin =
    MathmodRef->RootObjet.CurrentTreestruct.ymax =
    MathmodRef->RootObjet.CurrentTreestruct.zmin = MathmodRef->RootObjet
    .CurrentTreestruct.zmax = MathmodRef->RootObjet.CurrentTreestruct.tmin = MathmodRef->RootObjet
    .CurrentTreestruct.tmax = MathmodRef->RootObjet
    .CurrentTreestruct.name = MathmodRef->RootObjet
    .CurrentTreestruct.Component = MathmodRef->RootObjet
    .CurrentTreestruct.Grid = QStringList();
    MathmodRef->RootObjet.CurrentTreestruct.Noise =
        MathmodRef->RootObjet.CurrentTreestruct.text = "";
    MathmodRef->RootObjet.CurrentTreestruct.type = UNDEFINED_TYPE;
    // Initialize the current JSON Object
    MathmodRef->RootObjet.CurrentJsonObject = QJsonObject();
    // Initialize the Current Pariso Trees truct
    MathmodRef->RootObjet.CurrentParisoTreestruct.clear();
}

void DrawingOptions::MandatoryParFieldprocess(const QJsonObject &QObj,
        const MandatoryParField &idx,
        const ModelType &mod)
{
    QString result, arg = MandatoryParFieldToQString(idx);
    QJsonArray lst;

    lst = QObj[arg].toArray();
    ObjArrayToString(lst, result);
    switch (idx)
    {
    case PAR_FX:
        MathmodRef->ParObjet->masterthread->expression_X =
            result.toStdString();
        MathmodRef->ParObjet->masterthread->componentsNumber =
            uint(lst.size());
        MathmodRef->RootObjet.CurrentTreestruct.fx =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_FY:
        MathmodRef->ParObjet->masterthread->expression_Y =
            result.toStdString();
        MathmodRef->ParObjet->masterthread->expression_YSize =
            lst.size();
        MathmodRef->RootObjet.CurrentTreestruct.fy =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_FZ:
        MathmodRef->ParObjet->masterthread->expression_Z =
            result.toStdString();
        MathmodRef->ParObjet->masterthread->expression_ZSize =
            lst.size();
        MathmodRef->RootObjet.CurrentTreestruct.fz =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_FW:
        if (mod == PAR_4D_TYPE)
        {
            MathmodRef->ParObjet->masterthread->expression_W =
                result.toStdString();
            MathmodRef->RootObjet.CurrentTreestruct.fw =
                result.split(";",Qt::SkipEmptyParts);
        }
        break;
    case PAR_UMIN:
        MathmodRef->ParObjet->masterthread->inf_u =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.umin =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_UMAX:
        MathmodRef->ParObjet->masterthread->sup_u =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.umax =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_VMAX:
        MathmodRef->ParObjet->masterthread->sup_v =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.vmax =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_VMIN:
        MathmodRef->ParObjet->masterthread->inf_v =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.vmin =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_COMP:
        MathmodRef->RootObjet.CurrentTreestruct.Component =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case PAR_NAME:
        MathmodRef->RootObjet.CurrentTreestruct.name =
            result.split(";",Qt::SkipEmptyParts);
        break;
    }
}

void DrawingOptions::MandatoryIsoFieldprocess(const QJsonObject &QObj,
        const MandatoryIsoField &idx)
{
    QString result, arg = MandatoryIsoFieldToQString(idx);
    QJsonArray lst;

    lst = QObj[arg].toArray();
    ObjArrayToString(lst, result);
    switch (idx)
    {
    case ISO_FXYZ:
        MathmodRef->IsoObjet->masterthread->ImplicitFunction =
            result.toStdString();
        MathmodRef->IsoObjet->masterthread->componentsNumber =
            uint(lst.size());
        MathmodRef->RootObjet.CurrentTreestruct.fxyz =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_XMAX:
        MathmodRef->IsoObjet->masterthread->XlimitSup =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.xmax =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_YMAX:
        MathmodRef->IsoObjet->masterthread->YlimitSup =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.ymax =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_ZMAX:
        MathmodRef->IsoObjet->masterthread->ZlimitSup =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.zmax =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_XMIN:
        MathmodRef->IsoObjet->masterthread->XlimitInf =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.xmin =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_YMIN:
        MathmodRef->IsoObjet->masterthread->YlimitInf =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.ymin =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_ZMIN:
        MathmodRef->IsoObjet->masterthread->ZlimitInf =
            result.toStdString();
        MathmodRef->RootObjet.CurrentTreestruct.zmin =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_COMP:
        MathmodRef->RootObjet.CurrentTreestruct.Component =
            result.split(";",Qt::SkipEmptyParts);
        break;
    case ISO_NAME:
        MathmodRef->RootObjet.CurrentTreestruct.name =
            result.split(";",Qt::SkipEmptyParts);
        break;
    }
}

void DrawingOptions::OptionalIsoScriptFieldprocess(
    const QJsonObject &QObj, OptionnalIsoScriptFIELD idx)
{
    QString result, arg = "";
    QJsonArray lst;
    bool argnotnull = false;
    switch (idx)
    {
    case ISO_VECT:
        arg = "Vect";
        argnotnull = MathmodRef->IsoObjet->masterthread->vectnotnull =
                         QObj[arg].isArray();
        break;
    case ISO_GRID:
        arg = "Grid";
        argnotnull = MathmodRef->IsoObjet->masterthread->gridnotnull =
                         QObj[arg].isArray();
        break;
    case ISO_CND:
        arg = "Cnd";
        argnotnull = MathmodRef->IsoObjet->masterthread->cndnotnull =
                         QObj[arg].isArray();
        break;
    case ISO_CONST:
        arg = "Const";
        argnotnull = MathmodRef->IsoObjet->masterthread->constnotnull =
                         QObj[arg].isArray();
        break;
    case ISO_FUNCT:
        arg = "Funct";
        argnotnull = MathmodRef->IsoObjet->masterthread->functnotnull =
                         QObj[arg].isArray();
        break;
    }
    if (argnotnull)
    {
        lst = QObj[arg].toArray();
        ObjArrayToString(lst, result);
    }
    switch (idx)
    {
    case ISO_VECT:
        if (argnotnull)
        {
            MathmodRef->IsoObjet->masterthread->vect.clear();
            for (int j = 0; j < lst.size(); j++)
                MathmodRef->IsoObjet->masterthread->vect.push_back(
                    (lst[j].toString()).toUInt());
            MathmodRef->IsoObjet->masterthread->Vect =
                result.toStdString();
            MathmodRef->RootObjet.CurrentTreestruct.Vect =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->IsoObjet->masterthread->Vect = "";
        }
        break;
    case ISO_GRID:
        if (argnotnull)
        {
            MathmodRef->IsoObjet->masterthread->grid.clear();
            for (int j = 0; j < lst.size(); j++)
                MathmodRef->IsoObjet->masterthread->grid.push_back(
                    (lst[j].toString()).toUInt());
            MathmodRef->IsoObjet->masterthread->Grid =
                result.toStdString();
            MathmodRef->RootObjet.CurrentTreestruct.Grid =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->IsoObjet->masterthread->Grid = "";
        }
        break;
    case ISO_CND:
        if (argnotnull)
        {
            MathmodRef->IsoObjet->masterthread->Condition = result.toStdString();
            for(int i=0; i<lst.size(); i++)
                MathmodRef->LocalScene.componentsinfos.ParisoCondition.push_back((lst[i].toString()).replace(" ", "")=="");
            MathmodRef->RootObjet.CurrentTreestruct.Cnd = result.split(";");
        }
        else
        {
            for(int i=0; i<lst.size(); i++)
                MathmodRef->LocalScene.componentsinfos.ParisoCondition.push_back(false);
            MathmodRef->IsoObjet->masterthread->Condition = "";
        }
        break;
    case ISO_FUNCT:
        if (argnotnull)
        {
            MathmodRef->IsoObjet->masterthread->Funct = result.toStdString();
            MathmodRef->IsoObjet->masterthread->FunctSize = uint(lst.size());
            MathmodRef->RootObjet.CurrentTreestruct.Funct = result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->IsoObjet->masterthread->Funct = "";
            MathmodRef->IsoObjet->masterthread->FunctSize = 0;
        }
        break;
    case ISO_CONST:
        if (argnotnull)
        {
            MathmodRef->IsoObjet->masterthread->Const =
                result.toStdString();
            MathmodRef->IsoObjet->masterthread->ConstSize =
                uint(lst.size());
            MathmodRef->RootObjet.CurrentTreestruct.Const =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->IsoObjet->masterthread->Const = "";
            MathmodRef->IsoObjet->masterthread->ConstSize = 0;
        }
        break;
    }
}

void DrawingOptions::OptionalParScriptFieldprocess(
    const QJsonObject &QObj, OptionnalParScriptFIELD idx)
{
    QString result, arg = "";
    QJsonArray lst;
    bool argnotnull = false;
    switch (idx)
    {
    case PAR_VECT:
        arg = "Vect";
        argnotnull = MathmodRef->ParObjet->masterthread->vectnotnull =
                         QObj[arg].isArray();
        break;
    case PAR_GRID:
        arg = "Grid";
        argnotnull = MathmodRef->ParObjet->masterthread->gridnotnull =
                         QObj[arg].isArray();
        break;
    case PAR_CONST:
        arg = "Const";
        argnotnull = MathmodRef->ParObjet->masterthread->constnotnull =
                         QObj[arg].isArray();
        break;
    case PAR_FUNCT:
        arg = "Funct";
        argnotnull = MathmodRef->ParObjet->masterthread->functnotnull =
                         QObj[arg].isArray();
        break;
    case PAR_CND:
        arg = "Cnd";
        argnotnull = MathmodRef->ParObjet->masterthread->cndnotnull =
                         QObj[arg].isArray();
        break;
    }
    if (argnotnull)
    {
        lst = QObj[arg].toArray();
        ObjArrayToString(lst, result);
    }
    switch (idx)
    {
    case PAR_VECT:
        if (argnotnull)
        {
            MathmodRef->ParObjet->masterthread->vect.clear();
            for (int j = 0; j < lst.size(); j++)
                MathmodRef->ParObjet->masterthread->vect.push_back(
                    (lst[j].toString()).toUInt());
            MathmodRef->ParObjet->masterthread->Vect =
                result.toStdString();
            MathmodRef->RootObjet.CurrentTreestruct.Vect =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->ParObjet->masterthread->Vect = "";
        }
        break;
    case PAR_GRID:
        if (argnotnull)
        {
            MathmodRef->ParObjet->masterthread->grid.clear();
            for (int j = 0; j < lst.size(); j++)
                MathmodRef->ParObjet->masterthread->grid.push_back(
                    (lst[j].toString()).toUInt());
            MathmodRef->ParObjet->masterthread->Grid =
                result.toStdString();
            MathmodRef->RootObjet.CurrentTreestruct.Grid =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->ParObjet->masterthread->Grid = "";
        }
        break;
    case PAR_CND:
        if (argnotnull)
        {
            MathmodRef->ParObjet->masterthread->expression_CND = result.toStdString();
            for(int i=0; i<lst.size(); i++)
                MathmodRef->LocalScene.componentsinfos.ParisoCondition.push_back((lst[i].toString()).replace(" ", "") == "");
            MathmodRef->RootObjet.CurrentTreestruct.Cnd = result.split(";");
        }
        else
        {
            for(int i=0; i<lst.size(); i++)
                MathmodRef->LocalScene.componentsinfos.ParisoCondition.push_back(false);
            MathmodRef->ParObjet->masterthread->expression_CND = "";
        }
        break;
    case PAR_CONST:
        if (argnotnull)
        {
            MathmodRef->ParObjet->masterthread->Const = result.toStdString();
            MathmodRef->ParObjet->masterthread->ConstSize = uint(lst.size());
            MathmodRef->RootObjet.CurrentTreestruct.Const = result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->ParObjet->masterthread->Const = "";
            MathmodRef->ParObjet->masterthread->ConstSize = 0;
        }
        break;
    case PAR_FUNCT:
        if (argnotnull)
        {
            MathmodRef->ParObjet->masterthread->Funct =
                result.toStdString();
            MathmodRef->ParObjet->masterthread->FunctSize =
                uint(lst.size());
            MathmodRef->RootObjet.CurrentTreestruct.Funct =
                result.split(";",Qt::SkipEmptyParts);
        }
        else
        {
            MathmodRef->ParObjet->masterthread->Funct = "";
            MathmodRef->ParObjet->masterthread->FunctSize = 0;
        }
        break;
    }
}

void DrawingOptions::BuildAllVect()
{
    const OptionnalIsoScriptFIELD optiso[] = {ISO_GRID, ISO_VECT, ISO_CND, ISO_CONST, ISO_FUNCT};
    OptIsoFields = std::vector<OptionnalIsoScriptFIELD>(
                       optiso, optiso + sizeof(optiso) / sizeof(OptionnalIsoScriptFIELD));

    const OptionnalParScriptFIELD optpar[] = {PAR_GRID, PAR_VECT,PAR_CND, PAR_CONST,
                                              PAR_FUNCT
                                             };
    OptParFields = std::vector<OptionnalParScriptFIELD>(
                       optpar, optpar + sizeof(optpar) / sizeof(OptionnalParScriptFIELD));
    const MandatoryIsoField maniso[] = {ISO_FXYZ, ISO_XMIN, ISO_XMAX,
                                        ISO_YMIN, ISO_YMAX, ISO_ZMIN,
                                        ISO_ZMAX, ISO_COMP, ISO_NAME
                                       };
    MandIsoFields = std::vector<MandatoryIsoField>(
                        maniso, maniso + sizeof(maniso) / sizeof(MandatoryIsoField));
    const MandatoryParField manpar[] = {PAR_FX,   PAR_FY,   PAR_FZ,   PAR_FW,
                                        PAR_UMIN, PAR_UMAX, PAR_VMIN, PAR_VMAX,
                                        PAR_COMP, PAR_NAME
                                       };
    MandParFields = std::vector<MandatoryParField>(
                        manpar, manpar + sizeof(manpar) / sizeof(MandatoryParField));
}

int DrawingOptions::JSON_choice_activated(const QString &arg1)
{
    QJsonArray array = JSONMathModels["MathModels"].toArray();
    QJsonObject QObj, QObj1;
    QJsonObject QTextureObj, QPigmentObj;
    bool loadtext, loadpigm;
    QMessageBox msgBox;
    updateCurrentTreestruct();
    MathmodRef->LocalScene.componentsinfos.ParisoCondition.clear();
    MathmodRef->LocalScene.componentsinfos.hsv.clear();
    for (int i = 0; i < array.size(); i++)
    {
        if ((QObj1 = array[i].toObject())["ParIso"].isArray() &&
                (QObj1)["Name"].toString() == arg1)
        {
            if (!VerifiedJsonModel((array[i].toObject())))
                return (0);
            ShowSliders(array[i].toObject());
            QJsonArray listeObj = QObj1["ParIso"].toArray();
            QJsonArray listeIsoObj;
            QJsonArray listeParObj;
            QJsonObject QPar, QIso;
            for (int i = 0; i < listeObj.size(); i++)
                if ((listeObj[i].toObject())["Iso3D"].isObject())
                    listeIsoObj.append(listeObj[i].toObject());
                else
                    listeParObj.append(listeObj[i].toObject());
            // Right now, we only support pariso object with 1 Iso3D and 1 Param3D objects.
            if (listeParObj.size() > 0)
                QPar = listeParObj[0].toObject();
            if (listeIsoObj.size() > 0)
                QIso = listeIsoObj[0].toObject();
            if (QPar["Texture"].isObject())
                QTextureObj = QPar["Texture"].toObject();
            if (QPar["Pigment"].isObject())
                QPigmentObj = QPar["Pigment"].toObject();
            // Colors
            loadtext = MathmodRef->ParObjet->masterthread->rgbtnotnull =
                           (QPar["Texture"].isObject());
            // Pigment
            loadpigm = MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                           (QPar["Pigment"].isObject());
            LoadMandatoryAndOptionnalFields(QPar["Param3D"].toObject(), PAR_TYPE,
                                            loadtext, QTextureObj, loadpigm,
                                            QPigmentObj);
            // Save this Current Parametric Tree struct
            MathmodRef->RootObjet.CurrentParisoTreestruct.push_back(
                MathmodRef->RootObjet.CurrentTreestruct);
            loadtext = loadpigm = false;
            if (QIso["Texture"].isObject())
                QTextureObj = QIso["Texture"].toObject();
            if (QIso["Pigment"].isObject())
                QPigmentObj = QIso["Pigment"].toObject();
            // Colors
            loadtext = MathmodRef->IsoObjet->masterthread->rgbtnotnull =
                           (QIso["Texture"].isObject());
            // Pigment
            loadpigm = MathmodRef->IsoObjet->masterthread->vrgbtnotnull =
                           (QIso["Pigment"].isObject());
            LoadMandatoryAndOptionnalFields(QIso["Iso3D"].toObject(), ISO_TYPE,
                                            loadtext, QTextureObj, loadpigm,
                                            QPigmentObj);
            // Save this Current Isosurface Tree struct
            MathmodRef->RootObjet.CurrentParisoTreestruct.push_back(
                MathmodRef->RootObjet.CurrentTreestruct);
            QJsonDocument document;
            document.setObject(QObj1);
            MathmodRef->RootObjet.CurrentTreestruct.text = QString(document.toJson());
            // Update the current pariso struct
            MathmodRef->RootObjet.CurrentJsonObject = QObj1;
            CurrentFormulaType = 2;
            /// process the new surface
            MathmodRef->LocalScene.componentsinfos.ParisoCurrentComponentIndex = 0;
            MathmodRef->LocalScene.componentsinfos.ParisoNbComponents =2;
            MathmodRef->LocalScene.componentsinfos.pariso = true;
            MathmodRef->ParisoObjectProcess();
            ui.parisogroupbox->show();
            return (1);
        }
        else
        {
            MathmodRef->LocalScene.componentsinfos.pariso = false;
            MathmodRef->LocalScene.componentsinfos.ParisoNbComponents = 1;
            MathmodRef->LocalScene.componentsinfos.ParisoCurrentComponentIndex = 0;
            ui.parisogroupbox->hide();
            if ((QObj1 = array[i].toObject())["Iso3D"].isObject() &&
                    (QObj = (array[i].toObject())["Iso3D"].toObject())["Name"]
                    .toArray()[0]
                    .toString() == arg1)
            {
                if (!VerifiedJsonModel((array[i].toObject())))
                    return (0);
                ShowSliders(array[i].toObject());
                // Colors
                if ((loadtext = MathmodRef->IsoObjet->masterthread->rgbtnotnull = QObj1["Texture"].isObject()))
                    QTextureObj = QObj1["Texture"].toObject();
                // Pigment
                if ((loadpigm = MathmodRef->IsoObjet->masterthread->vrgbtnotnull = QObj1["Pigment"].isObject()))
                    QPigmentObj = QObj1["Pigment"].toObject();
                LoadMandatoryAndOptionnalFields(QObj, ISO_TYPE, loadtext, QTextureObj,
                                                loadpigm, QPigmentObj);
                QJsonDocument document;
                document.setObject(array[i].toObject());
                MathmodRef->RootObjet.CurrentTreestruct.text =
                    QString(document.toJson());
                // Update the current parametric struct
                MathmodRef->RootObjet.CurrentJsonObject = array[i].toObject();
                CurrentFormulaType = 2;
                /// process the new surface
                MathmodRef->ProcessNewIsoSurface();
                return (2);
            }
            else if (((array[i].toObject())["Param3D"].isObject() &&
                     (QObj = (array[i].toObject())["Param3D"].toObject())["Name"]
                     .toArray()[0]
                     .toString() == arg1)  ||

                     ( (MathmodRef->ParObjet->masterthread->param3d_C =  (array[i].toObject())["Param3D_C"].isObject() ) &&
                     (QObj = (array[i].toObject())["Param3D_C"].toObject())["Name"]
                     .toArray()[0]
                     .toString() == arg1))
            {
                if (!VerifiedJsonModel((array[i].toObject())))
                    return (0);
                ShowSliders(array[i].toObject());
                // Colors
                if ((loadtext =
                            MathmodRef->ParObjet->masterthread->rgbtnotnull =
                                QObj1["Texture"].isObject()))
                    QTextureObj = QObj1["Texture"].toObject();
                // Pigment
                if ((loadpigm =
                            MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                                QObj1["Pigment"].isObject()))
                    QPigmentObj = QObj1["Pigment"].toObject();
                LoadMandatoryAndOptionnalFields(QObj, PAR_TYPE, loadtext, QTextureObj,
                                                loadpigm, QPigmentObj);
                QJsonDocument document;
                document.setObject(array[i].toObject());
                MathmodRef->RootObjet.CurrentTreestruct.text =
                    QString(document.toJson());

                MathmodRef->RootObjet.CurrentJsonObject = array[i].toObject();
                CurrentFormulaType = 1;
                /// process the new surface
                MathmodRef->ParametricSurfaceProcess(1);
                return (1);
            }
            else if (((array[i].toObject())["Param4D"].isObject() &&
                     (QObj = (array[i].toObject())["Param4D"].toObject())["Name"]
                     .toArray()[0]
                     .toString() == arg1)  ||

                     ((MathmodRef->ParObjet->masterthread->param4d_C = (array[i].toObject())["Param4D_C"].isObject()) &&
                                          (QObj = (array[i].toObject())["Param4D_C"].toObject())["Name"]
                                          .toArray()[0]
                                          .toString() == arg1))
            {
                if (!VerifiedJsonModel((array[i].toObject())))
                    return (0);
                ShowSliders(array[i].toObject());
                // Colors
                if ((loadtext =
                            MathmodRef->ParObjet->masterthread->rgbtnotnull =
                                QObj1["Texture"].isObject()))
                    QTextureObj = QObj1["Texture"].toObject();
                // Pigment
                if ((loadpigm =
                            MathmodRef->ParObjet->masterthread->vrgbtnotnull =
                                QObj1["Pigment"].isObject()))
                    QPigmentObj = QObj1["Pigment"].toObject();
                LoadMandatoryAndOptionnalFields(QObj, PAR_4D_TYPE, loadtext,
                                                QTextureObj, loadpigm, QPigmentObj);
                QJsonDocument document;
                document.setObject(array[i].toObject());
                MathmodRef->RootObjet.CurrentTreestruct.text =
                    QString(document.toJson());
                MathmodRef->RootObjet.CurrentJsonObject = array[i].toObject();
                CurrentFormulaType = 3;
                /// process the new surface
                MathmodRef->ParametricSurfaceProcess(3);
                return (3);
            }
        }
    }
    return (0);
}

void DrawingOptions::LoadMandatoryAndOptionnalFields(
    const QJsonObject &qobj, const ModelType &mod, bool loadtext,
    const QJsonObject &QTextureObj, bool loadpigm,
    const QJsonObject &QPigmentObj)
{
    // We First deactivate the pariso flag
    MathmodRef->LocalScene.componentsinfos.pariso = false;
    MathmodRef->RootObjet.CurrentTreestruct.type = mod;
    switch (mod)
    {
    case PAR_TYPE:
        for (std::vector<MandatoryParField>::const_iterator it =
                    MandParFields.begin();
                it != MandParFields.end(); ++it)
        {
            MandatoryParField Opt = *it;
            MandatoryParFieldprocess(qobj, Opt);
        }

        for (std::vector<OptionnalParScriptFIELD>::const_iterator it =
                    OptParFields.begin();
                it != OptParFields.end(); ++it)
        {
            OptionnalParScriptFIELD Opt = *it;
            OptionalParScriptFieldprocess(qobj, Opt);
        }
        break;
    case PAR_4D_TYPE:
        for (std::vector<MandatoryParField>::const_iterator it =
                    MandParFields.begin();
                it != MandParFields.end(); ++it)
        {
            MandatoryParField Opt = *it;
            MandatoryParFieldprocess(qobj, Opt, PAR_4D_TYPE);
        }

        for (std::vector<OptionnalParScriptFIELD>::const_iterator it =
                    OptParFields.begin();
                it != OptParFields.end(); ++it)
        {
            OptionnalParScriptFIELD Opt = *it;
            OptionalParScriptFieldprocess(qobj, Opt);
        }
        break;
    case ISO_TYPE:
        for (std::vector<MandatoryIsoField>::const_iterator it =
                    MandIsoFields.begin();
                it != MandIsoFields.end(); ++it)
        {
            MandatoryIsoField Opt = *it;
            MandatoryIsoFieldprocess(qobj, Opt);
        }

        for (std::vector<OptionnalIsoScriptFIELD>::const_iterator it =
                    OptIsoFields.begin();
                it != OptIsoFields.end(); ++it)
        {
            OptionnalIsoScriptFIELD Opt = *it;
            OptionalIsoScriptFieldprocess(qobj, Opt);
        }
        break;
    case PARISO_TYPE:
        break;
    case UNDEFINED_TYPE:
        break;
    }
    // Colors
    if (loadtext)
    {
        LoadTexture(QTextureObj, mod);
    }
    // Pigment
    if (loadpigm)
    {
        LoadPigment(QPigmentObj, mod);
    }
}

void DrawingOptions::on_choice_activated(const QString &arg)
{
    // Draw here
    int Result = JSON_choice_activated(arg);
    if (Result != 0)
    {
        UpdateScriptEditorAndTreeObject();
    }
    //return Result;
}

void DrawingOptions::grabGestures(const QList<Qt::GestureType> &gestures)
{
    ui.openGLWidget->grabGestures(gestures);
}
void DrawingOptions::Run_JsonObject_activeted()
{
    QJsonParseError err;
    QString script =
        ui.ScriptEditor->toPlainText()
        .trimmed()
        .replace("\n", "")
        .replace("\t", "")
        .replace("DOTSYMBOL", Parameters->dotsymbol.toStdString().c_str());
    QJsonDocument doc = QJsonDocument::fromJson(script.toUtf8(), &err);
    if (err.error)
    {
        ShowErrorMessage(err, script);
        return;
    }
    // Draw here
    DrawJsonModel(doc.object());
}

void DrawingOptions::slot_comboBox18_3_activated(const QString &arg1)
{
    if (arg1 == "Triangles")
    {
        MathmodRef->slot_triangles_clicked();
        return;
    }
    if (arg1 == "Normales")
    {
        MathmodRef->draw_norm_clicked();
        return;
    }
    if (arg1 == "Fill")
    {
        MathmodRef->fill();
        return;
    }
    if (arg1 == "Mesh")
    {
        MathmodRef->Mesh();
        return;
    }
}

void DrawingOptions::slot_checkBox_clicked()
{
    MathmodRef->slot_uv_clicked();
}

void DrawingOptions::LoadNewFileModels(bool upd)
{
    QString mathmodcollection;
    mathmodcollection = QFileDialog::getOpenFileName(
                            nullptr, tr("Load Json Script"), "", tr("Json (*.js)"));
    if (upd)
    {
        ui.ObjectClasse->clear();
        for (int i = 0; i < MathmodRef->RootObjet.MyJsonObjectSelection.count();
                i++)
            MathmodRef->RootObjet.MyJsonObjectSelection.removeAt(i);
        MathmodRef->RootObjet.NbIsoStruct = MathmodRef->RootObjet.NbParamStruct = 0;
        MathmodRef->collection.JPar.clear();
        MathmodRef->collection.JIso.clear();
    }
    MathmodRef->RootObjet.ReadJsonFile(mathmodcollection, JSONMathModels);
    QJsonArray array = JSONMathModels["MathModels"].toArray();
    QStringList lst;
    QString a;
    QJsonObject jsobj;
    for (int i = 0; i < array.size(); i++)
    {
        if ((array[i].toObject())["Iso3D"].isObject())
        {
            jiso newjiso;
            jsobj = (array[i].toObject())["Iso3D"].toObject();
            newjiso.read(jsobj);
            MathmodRef->collection.JIso.append(newjiso);
            a = (jsobj)["Name"].toArray()[0].toString();
            lst.append(a);
        }
        else if ((array[i].toObject())["Param3D"].isObject())
        {
            jpar newjpar;
            jsobj = ((array[i].toObject())["Param3D"].toObject());
            newjpar.read(jsobj);
            MathmodRef->collection.JPar.append(newjpar);
            a = (jsobj)["Name"].toArray()[0].toString();
            lst.append(a);
        }
        else if ((array[i].toObject())["Param4D"].isObject())
        {
            jpar newjpar;
            jsobj = ((array[i].toObject())["Param4D"].toObject());
            newjpar.read(jsobj);
            MathmodRef->collection.JPar.append(newjpar);
            a = (jsobj)["Name"].toArray()[0].toString();
            lst.append(a);
        }
        else if ((array[i].toObject())["Param3D_C"].isObject())
        {
            jpar newjpar;
            jsobj = ((array[i].toObject())["Param3D_C"].toObject());
            newjpar.read(jsobj);
            MathmodRef->collection.JPar.append(newjpar);
            a = (jsobj)["Name"].toArray()[0].toString();
            lst.append(a);
        }
        else if ((array[i].toObject())["Param4D_C"].isObject())
        {
            jpar newjpar;
            jsobj = ((array[i].toObject())["Param4D_C"].toObject());
            newjpar.read(jsobj);
            MathmodRef->collection.JPar.append(newjpar);
            a = (jsobj)["Name"].toArray()[0].toString();
            lst.append(a);
        }
    }
    lst.insert(0, "Examples (" + QString::number(lst.count()) + ")");
    // Load the script containing isosurface and parametric formulas:
    ui.choice->clear();
    ui.choice->insertItems(0, lst);
    AddListModels(upd);
}

void DrawingOptions::LoadK3DSurfScript(QString filename, int type)
{
    int current = 0, currentfunction = 0, separator = 0;
    QString name, line, IsoFct, Xfct, Yfct, Zfct, xlimit, ylimit, zlimit, ulimit,
            vlimit, xmin, xmax, ymin, ymax, zmin, zmax, umin, umax, vmin, vmax,
            condition, Au, Bu, Cu, Duv, Euv, Fuv, comments, fctcomts;
    int EquationsNumber = 0;
    QString JsonString = "";
    int FctType = -1;
    filename = QFileDialog::getOpenFileName(
                   nullptr, QObject::tr("Open K3DSurf script File"), "",
                   QObject::tr("K3DS (*.k3ds)"));
    QFile file(filename);
    if (type == 1)
    {
        if (file.open(QIODevice::ReadOnly | QIODevice::Text))
        {
            QTextStream stream(&file);
            while (!stream.atEnd())
            {
                line = (stream.readLine()).trimmed(); // line of text excluding '\n'
                if (line.contains("F():"))
                {
                    currentfunction = 1;
                    FctType = 0;
                }
                else if (line.contains("[x]:"))
                    currentfunction = 2;
                else if (line.contains("[y]:"))
                    currentfunction = 3;
                else if (line.contains("[z]:"))
                    currentfunction = 4;

                else if (line.contains("X():"))
                {
                    currentfunction = 21;
                    FctType = 1;
                }
                else if (line.contains("Y():"))
                    currentfunction = 22;
                else if (line.contains("Z():"))
                    currentfunction = 23;
                else if (line.contains("[u]:"))
                    currentfunction = 24;
                else if (line.contains("[v]:"))
                    currentfunction = 25;

                else if (line.contains("Cnd:"))
                    currentfunction = 5;
                else if (line.contains("A[u]:"))
                    currentfunction = 6;
                else if (line.contains("B[u]:"))
                    currentfunction = 7;
                else if (line.contains("C[u]:"))
                    currentfunction = 8;
                else if (line.contains("D[u,v]:"))
                    currentfunction = 9;
                else if (line.contains("E[u,v]:"))
                    currentfunction = 10;
                else if (line.contains("F[u,v]:"))
                    currentfunction = 11;
                else if (line.contains("#"))
                    currentfunction = 12;
                else if (line.contains("/*"))
                    currentfunction = 13;
                else if (line.contains("*/"))
                    currentfunction = 14;
                else if (line.contains("Name:"))
                    currentfunction = 15;
                else if (line.contains(";"))
                    currentfunction = 16;
                else
                    currentfunction = 18;
                switch (currentfunction)
                {
                case 1:
                    IsoFct += line.remove(0, 4);
                    current = 1;
                    break;

                case 21:
                    Xfct += line.replace("X():", "");
                    current = 21;
                    break;
                case 22:
                    Yfct += line.replace("Y():", "");
                    current = 22;
                    break;
                case 23:
                    Zfct += line.replace("Z():", "");
                    current = 23;
                    break;
                case 24:
                    ulimit += line.replace("[u]:", "");
                    current = 24;
                    break;
                case 25:
                    vlimit += line.replace("[v]:", "");
                    current = 25;
                    break;

                case 2:
                    xlimit = line.remove(0, 4);
                    current = 2;
                    break;
                case 3:
                    ylimit = line.remove(0, 4);
                    current = 3;
                    break;
                case 4:
                    zlimit = line.remove(0, 4);
                    current = 4;
                    break;
                case 5:
                    condition = line.remove(0, 4);
                    current = 5;
                    break;
                case 6:
                    Au = line.remove(0, 5);
                    current = 6;
                    break;
                case 7:
                    Bu = line.remove(0, 5);
                    current = 7;
                    break;
                case 8:
                    Cu = line.remove(0, 5);
                    current = 8;
                    break;
                case 9:
                    Duv = line.remove(0, 7);
                    current = 9;
                    break;
                case 10:
                    Euv = line.remove(0, 7);
                    current = 10;
                    break;
                case 11:
                    Fuv = line.remove(0, 7);
                    current = 11;
                    break;
                case 12:
                    comments += line.replace("#", "");
                    current = 12;
                    break;
                case 13:
                    comments += line.replace("/*", "").replace("*/", "");
                    current = 13;
                    break;
                case 14:
                    comments += line.replace("*/", "");
                    current = 14;
                    break;
                case 15:
                    name = line.remove(0, 5);
                    current = 15;
                    break;
                case 16:
                    // Save the equation:
                    name = name.trimmed();
                    if (FctType == 0)
                    {
                        EquationsNumber++;
                        if (name == "")
                            name = "_" + QString::number(EquationsNumber);
                        xlimit = xlimit.trimmed();
                        separator = xlimit.indexOf(",");
                        xmin = xlimit.left(separator);
                        xmax = xlimit.remove(xmin + ",");
                        ylimit = ylimit.trimmed();
                        separator = ylimit.indexOf(",");
                        ymin = ylimit.left(separator);
                        ymax = ylimit.remove(ymin + ",");
                        zlimit = zlimit.trimmed();
                        separator = zlimit.indexOf(",");
                        zmin = zlimit.left(separator);
                        zmax = zlimit.remove(zmin + ",");
                        if (JsonString != "")
                            JsonString += ",";
                        JsonString += "{\"Iso3D\": {  \
                         \"Description \": [ \"" +
                                      comments + "\"], ";
                        JsonString += "\"Name\": [\"" + name + "\"], ";
                        JsonString += "\"Component\": [\"" + name + "\"], ";
                        JsonString += "\"Fxyz\": [\"" + IsoFct.trimmed() + "\"], ";
                        JsonString += "\"Cnd\": [\"" + condition + "\"], ";
                        JsonString += "\"Xmin\": [\"" + xmin + "\"], ";
                        JsonString += "\"Xmax\": [\"" + xmax + "\"], ";
                        JsonString += "\"Ymin\": [\"" + ymin + "\"], ";
                        JsonString += "\"Ymax\": [\"" + ymax + "\"], ";
                        JsonString += "\"Zmin\": [\"" + zmin + "\"], ";
                        JsonString += "\"Zmax\": [\"" + zmax + "\"] ";
                        JsonString += "}}";
                    }

                    else if (FctType == 1)
                    {
                        EquationsNumber++;
                        if (name == "")
                            name = "_" + QString::number(EquationsNumber);

                        ulimit = ulimit.trimmed();
                        separator = ulimit.indexOf(",");
                        umin = ulimit.left(separator);
                        umax = ulimit.remove(umin + ",");
                        vlimit = vlimit.trimmed();
                        separator = vlimit.indexOf(",");
                        vmin = vlimit.left(separator);
                        vmax = vlimit.remove(vmin + ",");
                        if (JsonString != "")
                            JsonString += ",";
                        JsonString += "{\"Param3D\": {  \
                         \"Description \": [ \"" +
                                      comments + "\"],";
                        JsonString += "\"Name\": [\"" + name + "\"],";
                        JsonString += "\"Component\": [\"" + name + "\"],";
                        JsonString += "\"Fx\": [\"" + Xfct.trimmed() + "\"],";
                        JsonString += "\"Fy\": [\"" + Yfct.trimmed() + "\"],";
                        JsonString += "\"Fz\": [\"" + Zfct.trimmed() + "\"],";
                        JsonString += "\"Cnd\": [\"" + condition + "\"],";
                        JsonString += "\"Umin\": [\"" + umin + "\"],";
                        JsonString += "\"Umax\": [\"" + umax + "\"],";
                        JsonString += "\"Vmin\": [\"" + vmin + "\"],";
                        JsonString += "\"Vmax\": [\"" + vmax + "\"]";
                        JsonString += "}}";
                    }
                    current = 16;
                    // Init all Parameters fo new formula:
                    IsoFct = Xfct = Yfct = Zfct = name = comments = condition = "";
                    umin = umax = vmin = vmax = xmin = xmax = ymin = ymax = zmin = zmax = "";
                    ulimit = vlimit = xlimit = ylimit = zlimit = "";
                    FctType = -1;
                    break;
                case 18:
                    if (current == 1)
                        IsoFct += line;
                    else if (current == 2)
                        xlimit += line;
                    else if (current == 3)
                        ylimit += line;
                    else if (current == 4)
                        zlimit += line;
                    else if (current == 21)
                        Xfct += line;
                    else if (current == 22)
                        Yfct += line;
                    else if (current == 23)
                        Zfct += line;
                    else if (current == 24)
                        ulimit += line;
                    else if (current == 25)
                        vlimit += line;
                    else if (current == 5)
                        condition += line;
                    else if (current == 6)
                        Au += line;
                    else if (current == 7)
                        Bu += line;
                    else if (current == 8)
                        Cu += line;
                    else if (current == 9)
                        Duv += line;
                    else if (current == 10)
                        Euv += line;
                    else if (current == 11)
                        Fuv += line;
                    else if (current == 12)
                        comments += line;
                    else if (current == 13)
                        comments += line;
                    else if (current == 14)
                        comments += line;
                    else if (current == 15)
                        name += line;
                    break;
                }
            }
            file.close();
            JsonString = " { \"MathModels\": [ " + JsonString + "]}";
            QFile f(filename.replace(".k3ds", ".js"));
            if (f.exists())
                f.remove();
            if (!f.open(QIODevice::ReadWrite | QIODevice::Text))
            {
                return;
            }
            QTextStream t(&f);
            t << JsonString;
            f.close();
        }
    }
}

QTreeWidgetItem *DrawingOptions::ChildItemTreeProperty(QTreeWidgetItem *item,
        QString proprty)
{
    int childcount = item->childCount();
    for (int j = 0; j < childcount; j++)
    {
        if ((item->child(j))->text(0).contains(proprty))
            return item->child(j);
    }
    return nullptr;
}

void DrawingOptions::ParseItemTree(QTreeWidgetItem *item, QList<bool> &list, bool viewall)
{
    int childcount = item->childCount();
    bool sel = false;
    bool result;
    for (int j = 0; j < childcount; j++)
    {
        item->child(j)->setForeground(0, QColor(255, 255, 255, 255));
        if (!viewall)
        {
            result = false;
            for (int k = 1; k < select.selectedoptions.selectedwords.count(); k++)
            {
                sel = (item->child(j))
                      ->text(0)
                      .contains(select.selectedoptions.selectedwords[k],
                                (select.selectedoptions.sensitive
                                 ? Qt::CaseSensitive
                                 : Qt::CaseInsensitive));
                result = result || sel;
                list[k - 1] = (list.at(k - 1) || sel);
            }
            if (result)
                item->child(j)->setForeground(0, QColor(255, 0, 0, 255));
        }
    }
}

void DrawingOptions::SearchListModels()
{
    QTreeWidgetItem *Toplevel;
    QTreeWidgetItem *Childlevel = nullptr;
    QTreeWidgetItem *SubChildlevel;
    int topcount = ui.ObjectClasse->topLevelItemCount();
    int childcount;
    bool sel1 = false;
    int searchresult = 0;
    // init boolean lists:
    for (int i = 0; i < select.selectedoptions.selectedwords.count() - 1; i++)
    {
        select.selectedoptions.namelist.append(false);
        select.selectedoptions.functlist.append(false);
        select.selectedoptions.cmpnamelist.append(false);
        select.selectedoptions.complist.append(false);
    }
    for (int i = 0; i < topcount; ++i)
    {
        Toplevel = ui.ObjectClasse->topLevelItem(i);
        childcount = Toplevel->childCount();
        searchresult = 0;
        for (int j = 0; j < childcount; j++)
        {
            sel1 = true;
            if (!select.selectedoptions.showall)
            {
                // init boolean lists:
                for (int m = 0; m < select.selectedoptions.selectedwords.count() - 1;
                        m++)
                {
                    select.selectedoptions.namelist[m] = false;
                    select.selectedoptions.functlist[m] = false;
                    select.selectedoptions.cmpnamelist[m] = false;
                    select.selectedoptions.complist[m] = false;
                }
                // Search in scripts names:
                if (select.selectedoptions.parsenames)
                    for (int k = 1; k < select.selectedoptions.selectedwords.count();
                            k++)
                    {
                        select.selectedoptions.namelist[k - 1] =
                            (Toplevel->child(j))
                            ->text(0)
                            .contains(select.selectedoptions.selectedwords[k],
                                      (select.selectedoptions.sensitive
                                       ? Qt::CaseSensitive
                                       : Qt::CaseInsensitive));
                    }
                // continue searching in the functions list when needed:
                if (select.selectedoptions.parsefunctions &&
                        (Childlevel = ChildItemTreeProperty(Toplevel->child(j),
                                      "Parameters")) != nullptr)
                    if ((SubChildlevel =
                                ChildItemTreeProperty(Childlevel, "Functions")) != nullptr)
                    {
                        ParseItemTree(SubChildlevel, select.selectedoptions.functlist);
                    }
                // continue searching in the components names list when needed:
                if (select.selectedoptions.parsecmpnames &&
                        (Childlevel = ChildItemTreeProperty(Toplevel->child(j),
                                      "Components")) != nullptr)
                {
                    ParseItemTree(Childlevel, select.selectedoptions.cmpnamelist);
                    int ct = Childlevel->childCount();
                    for (int m = 0; m < ct; m++)
                        ParseItemTree(Childlevel->child(m),
                                      select.selectedoptions.complist);
                }
                // now look in the search results
                if (select.selectedoptions.AND)
                {
                    sel1 = true;
                    for (int l = 0; l < select.selectedoptions.selectedwords.count() - 1;
                            l++)
                        sel1 = sel1 && (select.selectedoptions.namelist.at(l) ||
                                        select.selectedoptions.functlist.at(l) ||
                                        select.selectedoptions.cmpnamelist.at(l) ||
                                        select.selectedoptions.complist.at(l));
                }
                else
                {
                    sel1 = false;
                    for (int l = 0; l < select.selectedoptions.selectedwords.count() - 1;
                            l++)
                        sel1 = sel1 || (select.selectedoptions.namelist.at(l) ||
                                        select.selectedoptions.functlist.at(l) ||
                                        select.selectedoptions.cmpnamelist.at(l) ||
                                        select.selectedoptions.complist.at(l));
                }
            }
            else
            {
                // Make sure the text color is white when showall is activated
                if ((Childlevel = ChildItemTreeProperty(Toplevel->child(j),
                                                        "Parameters")) != nullptr)
                    if ((SubChildlevel =
                                ChildItemTreeProperty(Childlevel, "Functions")) != nullptr)
                    {
                        ParseItemTree(SubChildlevel, select.selectedoptions.functlist,
                                      true);
                    }
                // Components names and their childs:
                if ((Childlevel = ChildItemTreeProperty(Toplevel->child(j),
                                                        "Components")) != nullptr)
                {
                    ParseItemTree(Childlevel, select.selectedoptions.cmpnamelist, true);
                    int ct = Childlevel->childCount();
                    for (int m = 0; m < ct; m++)
                        ParseItemTree(Childlevel->child(m), select.selectedoptions.complist, true);
                }
            }
            // Now count and show only scripts with appropiate search results:
            if (sel1)
                searchresult++;
            (Toplevel->child(j))->setHidden(!sel1);
            if (Toplevel->text(0).contains("IsoSurfaces"))
                Toplevel->setText(0, "IsoSurfaces (" + QString::number(searchresult) +
                                  ")");
            else if (Toplevel->text(0).contains("Parametric"))
                Toplevel->setText(0,
                                  "Parametric (" + QString::number(searchresult) + ")");
            else
                Toplevel->setText(0, "My Selection (" + QString::number(searchresult) +
                                  ")");
        }
    }
    // Clear boolean lists:
    select.selectedoptions.namelist.clear();
    select.selectedoptions.functlist.clear();
    select.selectedoptions.cmpnamelist.clear();
    select.selectedoptions.complist.clear();
}

void DrawingOptions::AddListModels(bool update)
{
    if (!update)
    {
        QMenu *contextMenu = new QMenu(ui.ObjectClasse);
        ui.ObjectClasse->setContextMenuPolicy(Qt::ActionsContextMenu);
        QAction *addElement =
            new QAction("Add Current Model to MySelection", contextMenu);
        QAction *deleteElement =
            new QAction("Erase selected row from MySelection", contextMenu);
        QAction *separator = new QAction(ui.ObjectClasse);
        separator->setSeparator(true);
        ui.ObjectClasse->addAction(addElement);
        ui.ObjectClasse->addAction(separator);
        ui.ObjectClasse->addAction(deleteElement);
        connect(addElement, SIGNAL(triggered()), this,
                SLOT(slot_pushButton_2_clicked()));
        connect(deleteElement, SIGNAL(triggered()), this,
                SLOT(slot_unselect_clicked()));
    }
    QColor greenColor = QColor(0, 255, 0, 50);
    // Parametric:
    QTreeWidgetItem *ParlistItem = new QTreeWidgetItem(ui.ObjectClasse);
    QString Text = "Parametric (" +
                   QString::number(MathmodRef->collection.JPar.count()) + ")";
    ParlistItem->setBackground(0, greenColor);
    ParlistItem->setText(0, Text);
    for (int i = 0; i < MathmodRef->collection.JPar.count(); ++i)
    {
        QTreeWidgetItem *nameitem = new QTreeWidgetItem(ParlistItem);
        nameitem->setText(0, MathmodRef->collection.JPar[i].Name[0]);
        if (MathmodRef->collection.JPar[i].Component.count() > 0)
        {
            QTreeWidgetItem *cmpitem = new QTreeWidgetItem(nameitem);
            cmpitem->setText(0, "Components");
            for (int j = 0; j < MathmodRef->collection.JPar[i].Component.count();
                    j++)
            {
                QTreeWidgetItem *cmpitem2 = new QTreeWidgetItem(cmpitem);
                cmpitem2->setText(0, MathmodRef->collection.JPar[i].Component.at(j));
                QTreeWidgetItem *cmpitem3 = new QTreeWidgetItem(cmpitem2);
                cmpitem3->setText(0, "X(u,v) = " +
                                  MathmodRef->collection.JPar[i].Fx.at(j));
                QTreeWidgetItem *cmpitem4 = new QTreeWidgetItem(cmpitem2);
                cmpitem4->setText(0, "Y(u,v) = " +
                                  MathmodRef->collection.JPar[i].Fy.at(j));
                QTreeWidgetItem *cmpitem5 = new QTreeWidgetItem(cmpitem2);
                cmpitem5->setText(0, "Z(u,v) = " +
                                  MathmodRef->collection.JPar[i].Fz.at(j));
                QTreeWidgetItem *cmpitem6 = new QTreeWidgetItem(cmpitem2);
                cmpitem6->setText(
                    0, "U = [" + MathmodRef->collection.JPar[i].Umin.at(j) + ", " +
                    MathmodRef->collection.JPar[i].Umax.at(j) + "]");
                QTreeWidgetItem *cmpitem7 = new QTreeWidgetItem(cmpitem2);
                cmpitem7->setText(
                    0, "V = [" + MathmodRef->collection.JPar[i].Vmin.at(j) + ", " +
                    MathmodRef->collection.JPar[i].Vmax.at(j) + "]");
                // Grid resolution:
                if (MathmodRef->collection.JPar[i].Grid.size() > 0 &&
                        2 * j + 1 < MathmodRef->collection.JPar[i].Grid.size())
                {
                    QTreeWidgetItem *cmpitem8 = new QTreeWidgetItem(cmpitem2);
                    cmpitem8->setText(
                        0, "Grid = (" + MathmodRef->collection.JPar[i].Grid.at(2 * j) +
                        " , " + MathmodRef->collection.JPar[i].Grid.at(2 * j + 1) +
                        ")");
                }
            }
        }
        // Add Global parameters:
        if (MathmodRef->collection.JPar[i].Csts.count() ||
                MathmodRef->collection.JPar[i].Funct.count())
        {
            QTreeWidgetItem *parameteritem = new QTreeWidgetItem(nameitem);
            parameteritem->setText(0, "Parameters:");
            if (MathmodRef->collection.JPar[i].Csts.count() > 0)
            {
                QTreeWidgetItem *cstitem = new QTreeWidgetItem(parameteritem);
                cstitem->setText(0, "Constantes:");
                for (int j = 0; j < MathmodRef->collection.JPar[i].Csts.count(); j++)
                {
                    QTreeWidgetItem *cstitem2 = new QTreeWidgetItem(cstitem);
                    cstitem2->setText(0, MathmodRef->collection.JPar[i].Csts.at(j));
                }
            }
            if (MathmodRef->collection.JPar[i].Funct.count() > 0)
            {
                QTreeWidgetItem *fctitem = new QTreeWidgetItem(parameteritem);
                fctitem->setText(0, "Functions:");
                for (int j = 0; j < MathmodRef->collection.JPar[i].Funct.count(); j++)
                {
                    QTreeWidgetItem *fctitem2 = new QTreeWidgetItem(fctitem);
                    fctitem2->setText(0, MathmodRef->collection.JPar[i].Funct.at(j));
                }
            }
        }
    }
    ParlistItem->sortChildren(0, Qt::AscendingOrder);
    // Iso:
    QTreeWidgetItem *IsolistItem = IsolistItemRef =
                                       new QTreeWidgetItem(ui.ObjectClasse);
    Text = "IsoSurfaces (" +
           QString::number(MathmodRef->collection.JIso.count()) + ")";
    IsolistItem->setBackground(0, greenColor);
    IsolistItem->setText(0, Text);
    for (int i = 0; i < MathmodRef->collection.JIso.count(); ++i)
    {
        QTreeWidgetItem *nameitem = new QTreeWidgetItem(IsolistItem);
        nameitem->setText(0, MathmodRef->collection.JIso[i].Name[0]);
        if (MathmodRef->collection.JIso[i].Component.count() > 0)
        {
            QTreeWidgetItem *cmpitem = new QTreeWidgetItem(nameitem);
            cmpitem->setText(0, "Components");
            for (int j = 0; j < MathmodRef->collection.JIso[i].Component.count();
                    j++)
            {
                QTreeWidgetItem *cmpitem2 = new QTreeWidgetItem(cmpitem);
                cmpitem2->setText(0, MathmodRef->collection.JIso[i].Component.at(j));
                QTreeWidgetItem *cmpitem3 = new QTreeWidgetItem(cmpitem2);
                cmpitem3->setText(0, "F(x,y,z) = " +
                                  MathmodRef->collection.JIso[i].Fxyz.at(j));
                QTreeWidgetItem *cmpitem6 = new QTreeWidgetItem(cmpitem2);
                cmpitem6->setText(
                    0, "X = [" + MathmodRef->collection.JIso[i].Xmin.at(j) + ", " +
                    MathmodRef->collection.JIso[i].Xmax.at(j) + "]");
                QTreeWidgetItem *cmpitem7 = new QTreeWidgetItem(cmpitem2);
                cmpitem7->setText(
                    0, "Y = [" + MathmodRef->collection.JIso[i].Ymin.at(j) + ", " +
                    MathmodRef->collection.JIso[i].Ymax.at(j) + "]");
                QTreeWidgetItem *cmpitem8 = new QTreeWidgetItem(cmpitem2);
                cmpitem8->setText(
                    0, "Z = [" + MathmodRef->collection.JIso[i].Zmin.at(j) + ", " +
                    MathmodRef->collection.JIso[i].Zmax.at(j) + "]");
                // Grid resolution:
                if (MathmodRef->collection.JIso[i].Grid.size() > 0 &&
                        j < MathmodRef->collection.JIso[i].Grid.size())
                {
                    QTreeWidgetItem *cmpitem9 = new QTreeWidgetItem(cmpitem2);
                    cmpitem9->setText(0, "Grid = " +
                                      MathmodRef->collection.JIso[i].Grid.at(j));
                }
            }
        }
        // Add Global parameters:
        if (MathmodRef->collection.JIso[i].Csts.count() ||
                MathmodRef->collection.JIso[i].Funct.count())
        {
            QTreeWidgetItem *parameteritem = new QTreeWidgetItem(nameitem);
            parameteritem->setText(0, "Parameters:");
            if (MathmodRef->collection.JIso[i].Csts.count() > 0)
            {
                QTreeWidgetItem *cstitem = new QTreeWidgetItem(parameteritem);
                cstitem->setText(0, "Constantes:");
                for (int j = 0; j < MathmodRef->collection.JIso[i].Csts.count(); j++)
                {
                    QTreeWidgetItem *cstitem2 = new QTreeWidgetItem(cstitem);
                    cstitem2->setText(0, MathmodRef->collection.JIso[i].Csts.at(j));
                }
            }
            if (MathmodRef->collection.JIso[i].Funct.count() > 0)
            {
                QTreeWidgetItem *fctitem = new QTreeWidgetItem(parameteritem);
                fctitem->setText(0, "Functions:");
                for (int j = 0; j < MathmodRef->collection.JIso[i].Funct.count(); j++)
                {
                    QTreeWidgetItem *fctitem2 = new QTreeWidgetItem(fctitem);
                    fctitem2->setText(0, MathmodRef->collection.JIso[i].Funct.at(j));
                }
            }
        }
    }
    IsolistItemRef->sortChildren(0, Qt::AscendingOrder);
    // Parametric:
    QTreeWidgetItem *ParisolistItem = new QTreeWidgetItem(ui.ObjectClasse);
    Text = "Pariso (" +
                   QString::number(MathmodRef->collection.JParIso.count()) + ")";
    ParisolistItem->setBackground(0, greenColor);
    ParisolistItem->setText(0, Text);
    for (int i = 0; i < MathmodRef->collection.JParIso.count(); ++i)
    {
        QTreeWidgetItem *nameitem = new QTreeWidgetItem(ParisolistItem);
        nameitem->setText(0, MathmodRef->collection.JParIso[i].Name);

    }
    ParisolistItem->sortChildren(0, Qt::AscendingOrder);
    // My Selection:
    // Isosurfaces:
    QTreeWidgetItem *MyselectionItem = new QTreeWidgetItem(ui.ObjectClasse);
    MyselectionItemReference = MyselectionItem;
    MyselectionItem->setBackground(0, greenColor);
    MyselectionItem->setText(0, "My Selection");
    return;
}

void DrawingOptions::on_action_Exit_triggered()
{
    MathmodRef->close();
    this->close();
}

void DrawingOptions::on_actionTriangles_triggered()
{
    MathmodRef->slot_triangles_clicked();
}

void DrawingOptions::on_actionInfos_triggered()
{
    infos *= -1;
    if(infos == 1)
       ui.Messagetext->show();
    else
        ui.Messagetext->hide();
    //MathmodRef->iso_infos();
}

void DrawingOptions::on_actionFill_triggered()
{
    MathmodRef->fill();
}

void DrawingOptions::on_ObjectClasse_clicked(const QModelIndex &index)
{
    if (!MathmodRef->IsoObjet->isRunning() &&
            !MathmodRef->ParObjet->isRunning())
    {
        on_InitTButton_clicked();
        // int result;
        QString tst;
        MathmodRef->LocalScene.IndexCurrentFormula = -1;
        if (index.data().isValid())
        {
            QVariant data = index.data();
            QString s = data.toString();
            QModelIndex parent = index.parent();
            if (parent.data().isValid())
            {
                QString prt = parent.data().toString();
                if (prt != "My Selection")
                {
                    on_choice_activated(s);
                }
                else
                {
                    for (int i = 0;
                            i < MathmodRef->RootObjet.MyJsonObjectSelection.size(); i++)
                        if ((MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Iso3D"].isObject()))
                        {
                            if (s == (tst = (MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Iso3D"]).toObject()["Name"].toArray()[0].toString()))
                            {
                                // Draw here

                                DrawJsonModel(MathmodRef->RootObjet.MyJsonObjectSelection.at(i).toObject());
                                return;
                            }
                        }
                        else if ((MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param3D"].isObject()))
                        {
                            if (s == (tst = (MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param3D"]).toObject()["Name"].toArray()[0].toString()))
                            {
                                // Draw here
                                DrawJsonModel(MathmodRef->RootObjet.MyJsonObjectSelection.at(i).toObject());
                                return;
                            }
                        }
                        else if ((MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param4D"].isObject()))
                        {
                            if (s == (tst = (MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param4D"]).toObject()["Name"].toArray()[0].toString()))
                            {
                                // Draw here
                                DrawJsonModel(MathmodRef->RootObjet.MyJsonObjectSelection.at(i).toObject());
                                return;
                            }
                        }
                        else if ((MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param3D_C"].isObject()))
                        {
                            if (s == (tst = (MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param3D_C"]).toObject()["Name"].toArray()[0].toString()))
                            {
                                // Draw here
                                DrawJsonModel(MathmodRef->RootObjet.MyJsonObjectSelection.at(i).toObject());
                                return;
                            }
                        }
                        else if ((MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param4D_C"].isObject()))
                        {
                            if (s == (tst = (MathmodRef->RootObjet.MyJsonObjectSelection[i].toObject()["Param4D_C"]).toObject()["Name"].toArray()[0].toString()))
                            {
                                // Draw here
                                DrawJsonModel(MathmodRef->RootObjet.MyJsonObjectSelection.at(i).toObject());
                                return;
                            }
                        }
                }
            }
        }
        return;
    }
}

void DrawingOptions::slot_pushButton_2_clicked()
{
    MathmodRef->RootObjet.MyJsonObjectSelection.append(MathmodRef->RootObjet.CurrentJsonObject);
    AddObjectToMySelectionTree();
}

void DrawingOptions::slot_unselect_clicked()
{
    int index =
        MyselectionItemReference->indexOfChild(ui.ObjectClasse->currentItem());
    MathmodRef->RootObjet.MyJsonObjectSelection.removeAt(index);
    MyselectionItemReference->removeChild(ui.ObjectClasse->currentItem());
}

void DrawingOptions::slot_XYZscrollBar_valueChanged(int value)
{
    MathmodRef->xyzg_valueChanged(value, ISO_TYPE);
}

void DrawingOptions::UpdateDescription(int position, ModelType type, TreeStruct &currentstruct)
{
    if (type == PAR_TYPE)
    {
        if (position > -1)
        {
            IndexcurrentComponent = position;
            MathmodRef->LocalScene.IndexCurrentFormula == position
            ? MathmodRef->LocalScene.IndexCurrentFormula = -1
                    : MathmodRef->LocalScene.IndexCurrentFormula = position;
            // currentFormula = sparent;
            ui.paramNameEdit->setText(currentstruct.Component.at(position));
            ui.XEdit->setText(currentstruct.fx.at(position));
            ui.YEdit->setText(currentstruct.fy.at(position));
            ui.ZEdit->setText(currentstruct.fz.at(position));
            ui.umin->setText(currentstruct.umin.at(position));
            ui.vmin->setText(currentstruct.vmin.at(position));
            ui.umax->setText(currentstruct.umax.at(position));
            ui.vmax->setText(currentstruct.vmax.at(position));
            if (!currentstruct.Component.empty())
                ui.paramNameEdit->setText(currentstruct.Component.at(position));
            else
                ui.paramNameEdit->setText("");
            if (!currentstruct.Cnd.empty())
            {
                ui.CndUpdateEdit_2->setText(currentstruct.Cnd.at(position));
            }
            else
            {
                ui.CndUpdateEdit_2->setText("");
            }
            // Function:
            if (!currentstruct.Funct.empty())
            {
                ui.tableWidget_Fct_2->clearContents();
                ui.tableWidget_Fct_2->setRowCount(0);
                for (int i = 0; i < currentstruct.Funct.size(); i++)
                {
                    ui.tableWidget_Fct_2->setRowCount(i + 1);
                    ui.tableWidget_Fct_2->setItem(i, 0, new QTableWidgetItem(currentstruct.Funct.at(i)));
                }
            }
            else
            {
                ui.tableWidget_Fct_2->clearContents();
                ui.tableWidget_Fct_2->setRowCount(0);
            }
            // Constantes:
            if (!currentstruct.Const.empty())
            {
                ui.tableWidget_Cst_2->clearContents();
                ui.tableWidget_Cst_2->setRowCount(0);
                for (int i = 0; i < currentstruct.Const.size(); i++)
                {
                    ui.tableWidget_Cst_2->setRowCount(i + 1);
                    ui.tableWidget_Cst_2->setItem(i, 0, new QTableWidgetItem(currentstruct.Const.at(i)));
                }
            }
            else
            {
                ui.tableWidget_Cst_2->clearContents();
                ui.tableWidget_Cst_2->setRowCount(0);
            }
        }
        ui.stackedProperties->setCurrentIndex(2);
    }
    if (type == PAR_4D_TYPE)
    {
        if (position > -1)
        {
            IndexcurrentComponent = position;
            MathmodRef->LocalScene.IndexCurrentFormula == position
            ? MathmodRef->LocalScene.IndexCurrentFormula = -1
                    : MathmodRef->LocalScene.IndexCurrentFormula = position;
            // currentFormula = sparent;
            ui.paramNameEdit_2->setText(currentstruct.Component.at(position));
            ui.XEdit_2->setText(currentstruct.fx.at(position));
            ui.YEdit_2->setText(currentstruct.fy.at(position));
            ui.ZEdit_2->setText(currentstruct.fz.at(position));
            ui.WEdit_2->setText(currentstruct.fw.at(position));
            ui.umin_2->setText(currentstruct.umin.at(position));
            ui.vmin_2->setText(currentstruct.vmin.at(position));
            ui.umax_2->setText(currentstruct.umax.at(position));
            ui.vmax_2->setText(currentstruct.vmax.at(position));
            if (!currentstruct.Component.empty())
                ui.paramNameEdit_2->setText(currentstruct.Component.at(position));
            else
                ui.paramNameEdit_2->setText("");
        }
        ui.stackedProperties->setCurrentIndex(3);
    }
    if (type == ISO_TYPE)
    {
        if (position > -1)
        {
            IndexcurrentComponent = position;
            MathmodRef->LocalScene.IndexCurrentFormula == position
            ? MathmodRef->LocalScene.IndexCurrentFormula = -1
                    : MathmodRef->LocalScene.IndexCurrentFormula = position;
            ui.UpdateEdit->setText(currentstruct.fxyz.at(position));
            ui.xmin->setText(currentstruct.xmin.at(position));
            ui.ymin->setText(currentstruct.ymin.at(position));
            ui.zmin->setText(currentstruct.zmin.at(position));
            ui.xmax->setText(currentstruct.xmax.at(position));
            ui.ymax->setText(currentstruct.ymax.at(position));
            ui.zmax->setText(currentstruct.zmax.at(position));
            if (!currentstruct.Component.empty())
                ui.isoNameEdit->setText(currentstruct.Component.at(position));
            else
                ui.isoNameEdit->setText("");

            if (!currentstruct.Cnd.empty())
            {
                position < currentstruct.Cnd.size()
                ? ui.CndUpdateEdit->setText(currentstruct.Cnd.at(position))
                : ui.CndUpdateEdit->setText(currentstruct.Cnd.at(0));
            }
            else
            {
                ui.CndUpdateEdit->setText("");
            }
            // Function:
            if (!currentstruct.Funct.empty())
            {
                ui.tableWidget_Fct->clearContents();
                ui.tableWidget_Fct->setRowCount(0);
                for (int i = 0; i < currentstruct.Funct.size(); i++)
                {
                    ui.tableWidget_Fct->setRowCount(i + 1);
                    ui.tableWidget_Fct->setItem(i, 0, new QTableWidgetItem(currentstruct.Funct.at(i)));
                }
            }
            else
            {
                ui.tableWidget_Fct->clearContents();
                ui.tableWidget_Fct->setRowCount(0);
            }
            // Constantes:
            if (!currentstruct.Const.empty())
            {
                ui.tableWidget_Cst->clearContents();
                ui.tableWidget_Cst->setRowCount(0);
                for (int i = 0; i < currentstruct.Const.size(); i++)
                {
                    ui.tableWidget_Cst->setRowCount(i + 1);
                    ui.tableWidget_Cst->setItem(i, 0, new QTableWidgetItem(currentstruct.Const.at(i)));
                }
            }
            else
            {
                ui.tableWidget_Cst->clearContents();
                ui.tableWidget_Cst->setRowCount(0);
            }
        }
        ui.stackedProperties->setCurrentIndex(1);
    }
}

void DrawingOptions::oncolor_2activated(int index)
{
    MathmodRef->colorstype(index);
}

void DrawingOptions::onred_2valueChanged(int value)
{
    MathmodRef->red(value, IndexcurrentComponent);
}

void DrawingOptions::ongreen_2valueChanged(int value)
{
    MathmodRef->green(value, IndexcurrentComponent);
}

void DrawingOptions::onblue_2valueChanged(int value)
{
    MathmodRef->blue(value, IndexcurrentComponent);
}

void DrawingOptions::on_red_ParIso_valueChanged(int value)
{
    MathmodRef->red(value, IndexcurrentComponent);
}

void DrawingOptions::on_green_ParIso_valueChanged(int value)
{
    MathmodRef->green(value, IndexcurrentComponent);
}

void DrawingOptions::on_blue_ParIso_valueChanged(int value)
{
    MathmodRef->blue(value, IndexcurrentComponent);
}

void DrawingOptions::removeat(int idx, QJsonObject& QObj, QString str)
{
    QJsonArray array;
    array = QObj[str].toArray();
    array.removeAt(idx);
    QObj[str] = array;
}

void DrawingOptions::removeat2(int idx, QJsonObject& QObj, QString str)
{
    if (QObj[str].isArray())
    {
        QJsonArray array;
        array = QObj[str].toArray();
        array.removeAt(idx);
        QObj[str] = array;
    }
    else
        QObj.remove(str);
}

void DrawingOptions::appendall(QJsonObject& QObj, QString str, QTableWidget* table)
{
    if (QObj[str].isArray() && table->rowCount() > 0)
    {
        QJsonArray array2;
        for (int i = 0; i < table->rowCount(); i++)
        {
            if ((table->item(i, 0))->text() != "")
                array2.append((table->item(i, 0))->text());
        }
        QObj[str] = array2;
    }
    else
        QObj.remove(str);
}

void DrawingOptions::replaceat(int idx, QJsonObject& QObj, QString str, QTextEdit* text)
{
    QJsonArray array;
    array = QObj[str].toArray();
    array.replace(idx, text->toPlainText());
    QObj[str] = array;
}

void DrawingOptions::insertat(int idx, QJsonObject& QObj, QString str, QTextEdit* text)
{
    QJsonArray array;
    array = QObj[str].toArray();
    array.insert(idx, text->toPlainText());
    QObj[str] = array;
}

void DrawingOptions::appednew(QJsonObject& QObj, QString str, QTextEdit* text)
{
    QJsonArray array;
    array = QObj[str].toArray();
    array.append(text->toPlainText());
    QObj[str] = array;
}

void DrawingOptions::on_updateJObject(QJsonObject &copyCurrentObject)
{
    QJsonArray array;
    if (copyCurrentObject["Iso3D"].isObject())
    {
        if (IndexcurrentComponent != -1)
        {
            QJsonObject copyCurrentObject2 = copyCurrentObject["Iso3D"].toObject();
            // Cut the component at the index indexcurrentFormula :
            if ((ui.isoNameEdit->toPlainText()).replace(" ", "") == "")
            {
                for(uint ui=0; ui<MandatoryIsosurfaceFields.size(); ui++)
                    removeat(IndexcurrentComponent, copyCurrentObject2, MandatoryIsosurfaceFields[ui]);

                removeat2(IndexcurrentComponent, copyCurrentObject2, "Grid");
                removeat2(IndexcurrentComponent, copyCurrentObject2, "Cnd");
                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst);
                // Some keys cleaning..
                copyCurrentObject2.remove("Param3D");
                copyCurrentObject2.remove("Param4D");
                copyCurrentObject["Iso3D"] = copyCurrentObject2;
            }
            // Update the component at the index indexcurrentFormula;
            else if ((copyCurrentObject["Iso3D"].toObject())["Component"].toArray().size() > 0 &&
                     IndexcurrentComponent > -1 && IndexcurrentComponent <
                     (copyCurrentObject["Iso3D"].toObject())["Component"].toArray().size() &&
                     (((copyCurrentObject["Iso3D"].toObject())["Component"].toArray())[IndexcurrentComponent]).toString().replace(" ", "") ==
                     (ui.isoNameEdit->toPlainText()).replace(" ", ""))
            {
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fxyz", ui.UpdateEdit);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Xmin", ui.xmin);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Xmax", ui.xmax);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Ymin", ui.ymin);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Ymax", ui.ymax);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Zmin", ui.zmin);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Zmax", ui.zmax);
                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst);

                copyCurrentObject2.remove("Param3D");
                copyCurrentObject2.remove("Param4D");
                copyCurrentObject["Iso3D"] = copyCurrentObject2;
            }
            else
            {
                // Add new component:
                if ((((copyCurrentObject["Iso3D"].toObject())["Component"].toArray())[IndexcurrentComponent]).toString().replace(" ", "") !=
                        (ui.isoNameEdit->toPlainText()).replace(" ", ""))
                {
                    appednew(copyCurrentObject2, "Component", ui.isoNameEdit);
                    appednew(copyCurrentObject2, "Fxyz", ui.UpdateEdit);
                    appednew(copyCurrentObject2, "Xmin", ui.xmin);
                    appednew(copyCurrentObject2, "Xmax", ui.xmax);
                    appednew(copyCurrentObject2, "Ymin", ui.ymin);
                    appednew(copyCurrentObject2, "Ymax", ui.ymax);
                    appednew(copyCurrentObject2, "Zmin", ui.zmin);
                    appednew(copyCurrentObject2, "Zmax", ui.zmax);

                    if (copyCurrentObject2["Cnd"].isArray())
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        array.append(ui.CndUpdateEdit->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else if (ui.CndUpdateEdit->toPlainText() != "")
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        for (int i = 0; i < copyCurrentObject2["Fxyz"].toArray().count();
                                i++)
                            array.append(ui.CndUpdateEdit->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Cnd");

                    if (copyCurrentObject2["Grid"].isArray())
                    {
                        array = copyCurrentObject2["Grid"].toArray();
                        array.append(QString::number(ui.xyzg->value()));
                        copyCurrentObject2["Grid"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Grid");
                }
                else
                {
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fxyz", ui.UpdateEdit);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Xmin", ui.xmin);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Xmax", ui.xmax);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Ymin", ui.ymin);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Ymax", ui.ymax);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Zmin", ui.zmin);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Zmax", ui.zmax);

                    if (copyCurrentObject2["Cnd"].isArray())
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        array.insert(IndexcurrentComponent, ui.CndUpdateEdit->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else if (ui.CndUpdateEdit->toPlainText() != "")
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        for (int i = 0; i < copyCurrentObject2["Fxyz"].toArray().count();
                                i++)
                            array.append(ui.CndUpdateEdit->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Cnd");
                }

                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst);

                copyCurrentObject["Iso3D"] = copyCurrentObject2;
            }
        }
    }
    else if (copyCurrentObject["Param3D"].isObject() || copyCurrentObject["Param3D_C"].isObject())
    {
        copyCurrentObject.remove("Iso3D");
        QJsonObject copyCurrentObject2 =
                copyCurrentObject["Param3D"].isObject() ? copyCurrentObject["Param3D"].toObject() : copyCurrentObject["Param3D_C"].toObject();
        if (IndexcurrentComponent != -1)
        {
            if ((ui.paramNameEdit->toPlainText()).replace(" ", "") == "")
            {
                for(uint ui=0; ui<MandatoryParmetric3DFields.size(); ui++)
                    removeat(IndexcurrentComponent, copyCurrentObject2, MandatoryParmetric3DFields[ui]);
                removeat2(2*IndexcurrentComponent, copyCurrentObject2, "Grid");
                removeat2(2*IndexcurrentComponent, copyCurrentObject2, "Grid");
                removeat2(IndexcurrentComponent, copyCurrentObject2, "Cnd");
                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct_2);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst_2);
                // Some keys cleaning..
                copyCurrentObject2.remove("Iso3D");
                copyCurrentObject2.remove("Param4D");
                if(copyCurrentObject["Param3D"].isObject())
                    copyCurrentObject["Param3D"] = copyCurrentObject2;
                else
                    copyCurrentObject["Param3D_C"] = copyCurrentObject2;
            }
            else if ((((copyCurrentObject["Param3D"].toObject())["Component"].toArray()).count() > 0 &&
                     IndexcurrentComponent > -1 && IndexcurrentComponent <
                     ((copyCurrentObject["Param3D"].toObject())["Component"].toArray()).size() &&
                     ((copyCurrentObject["Param3D"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") ==
                     (ui.paramNameEdit->toPlainText()).replace(" ", ""))  ||

                     (((copyCurrentObject["Param3D_C"].toObject())["Component"].toArray()).count() > 0 &&
                     IndexcurrentComponent > -1 && IndexcurrentComponent <
                     ((copyCurrentObject["Param3D_C"].toObject())["Component"].toArray()).size() &&
                     ((copyCurrentObject["Param3D_C"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") ==
                     (ui.paramNameEdit->toPlainText()).replace(" ", ""))
                     )
            {
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fx", ui.XEdit);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fy", ui.YEdit);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fz", ui.ZEdit);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Umin", ui.umin);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Umax", ui.umax);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Vmin", ui.vmin);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Vmax", ui.vmax);
                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct_2);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst_2);
                if (copyCurrentObject2["Cnd"].isArray() &&
                        copyCurrentObject2["Cnd"].toArray().count() > IndexcurrentComponent)
                {
                    array = copyCurrentObject2["Cnd"].toArray();
                    array.replace(IndexcurrentComponent, ui.CndUpdateEdit_2->toPlainText());
                    copyCurrentObject2["Cnd"] = array;
                }
                else if (ui.CndUpdateEdit_2->toPlainText() != "")
                {
                    array = copyCurrentObject2["Cnd"].toArray();
                    for (int i = 0; i < copyCurrentObject2["Fx"].toArray().count(); i++)
                        array.append(ui.CndUpdateEdit_2->toPlainText());
                    copyCurrentObject2["Cnd"] = array;
                }
                else
                    copyCurrentObject2.remove("Cnd");
                if(copyCurrentObject["Param3D"].isObject())
                    copyCurrentObject["Param3D"] = copyCurrentObject2;
                else
                    copyCurrentObject["Param3D_C"] = copyCurrentObject2;
            }
            else
            {
                if ((((copyCurrentObject["Param3D"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") !=
                        (ui.paramNameEdit->toPlainText()).replace(" ", "")) ||
                    (((copyCurrentObject["Param3D_C"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") !=
                                                (ui.paramNameEdit->toPlainText()).replace(" ", ""))
                    )
                {
                    appednew(copyCurrentObject2, "Component", ui.paramNameEdit);
                    appednew(copyCurrentObject2, "Fx", ui.XEdit);
                    appednew(copyCurrentObject2, "Fy", ui.YEdit);
                    appednew(copyCurrentObject2, "Fz", ui.ZEdit);
                    appednew(copyCurrentObject2, "Umin", ui.umin);
                    appednew(copyCurrentObject2, "Umax", ui.umax);
                    appednew(copyCurrentObject2, "Vmin", ui.vmin);
                    appednew(copyCurrentObject2, "Vmax", ui.vmax);
                    if (copyCurrentObject2["Grid"].isArray())
                    {
                        array = copyCurrentObject2["Grid"].toArray();
                        int pos=2*IndexcurrentComponent;
                        array.append((array.at(pos).toString()));
                        array.append((array.at(pos+1).toString()));
                        copyCurrentObject2["Grid"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Grid");

                    if (copyCurrentObject2["Cnd"].isArray())
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        array.append(ui.CndUpdateEdit_2->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else if (ui.CndUpdateEdit_2->toPlainText() != "")
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        for (int i = 0; i < copyCurrentObject2["Fx"].toArray().count(); i++)
                            array.append(ui.CndUpdateEdit_2->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Cnd");
                }
                else
                {
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fx", ui.XEdit);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fy", ui.YEdit);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fz", ui.ZEdit);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Umin", ui.umin);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Umax", ui.umax);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Vmin", ui.vmin);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Vmax", ui.vmax);
                    array = copyCurrentObject2["Component"].toArray();
                    array.insert(IndexcurrentComponent, ui.paramNameEdit->toPlainText());
                    copyCurrentObject2["Component"] = array;
                    if (copyCurrentObject2["Cnd"].isArray())
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        array.append(ui.CndUpdateEdit_2->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else if (ui.CndUpdateEdit_2->toPlainText() != "")
                    {
                        array = copyCurrentObject2["Cnd"].toArray();
                        for (int i = 0; i < copyCurrentObject2["Fx"].toArray().count(); i++)
                            array.append(ui.CndUpdateEdit_2->toPlainText());
                        copyCurrentObject2["Cnd"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Cnd");
                }
                appendall(copyCurrentObject2, "Funct", ui.tableWidget_Fct_2);
                appendall(copyCurrentObject2, "Const", ui.tableWidget_Cst_2);
                if(copyCurrentObject["Param3D"].isObject())
                    copyCurrentObject["Param3D"] = copyCurrentObject2;
                else
                    copyCurrentObject["Param3D_C"] = copyCurrentObject2;
            }
        }
    }
    else if (copyCurrentObject["Param4D"].isObject() || copyCurrentObject["Param4D_C"].isObject())
    {
        copyCurrentObject.remove("Iso3D");
        copyCurrentObject.remove("Param3D");
        copyCurrentObject.remove("Param3D_C");
        QJsonObject copyCurrentObject2 = copyCurrentObject["Param4D"].isObject() ? copyCurrentObject["Param4D"].toObject() : copyCurrentObject["Param4D_C"].toObject();
        if (IndexcurrentComponent != -1)
        {
            if ((ui.paramNameEdit_2->toPlainText()).replace(" ", "") == "")
            {
                for(uint ui=0; ui<MandatoryParmetric4DFields.size(); ui++)
                    removeat(IndexcurrentComponent, copyCurrentObject2, MandatoryParmetric4DFields[ui]);
                removeat2(2*IndexcurrentComponent, copyCurrentObject2, "Grid");
                removeat2(2*IndexcurrentComponent, copyCurrentObject2, "Grid");
                if(copyCurrentObject["Param4D"].isObject())
                    copyCurrentObject["Param4D"] = copyCurrentObject2;
                else
                    copyCurrentObject["Param4D_C"] = copyCurrentObject2;
            }
            else if ((((copyCurrentObject["Param4D"].toObject())["Component"].toArray()).count() > 0 &&
                     IndexcurrentComponent > -1 && IndexcurrentComponent <((copyCurrentObject["Param4D"].toObject())["Component"].toArray()).size() &&
                     ((copyCurrentObject["Param4D"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") ==(ui.paramNameEdit_2->toPlainText()).replace(" ", ""))
                 ||
                     (((copyCurrentObject["Param4D_C"].toObject())["Component"].toArray()).count() > 0 &&
                                          IndexcurrentComponent > -1 && IndexcurrentComponent <((copyCurrentObject["Param4D_C"].toObject())["Component"].toArray()).size() &&
                                          ((copyCurrentObject["Param4D_C"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") ==(ui.paramNameEdit_2->toPlainText()).replace(" ", ""))
                )
            {
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fx", ui.XEdit_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fy", ui.YEdit_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fz", ui.ZEdit_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Fw", ui.WEdit_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Umin", ui.umin_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Umax", ui.umax_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Vmin", ui.vmin_2);
                replaceat(IndexcurrentComponent, copyCurrentObject2, "Vmax", ui.vmax_2);
                if(copyCurrentObject["Param4D"].isObject())
                    copyCurrentObject["Param4D"] = copyCurrentObject2;
                else
                    copyCurrentObject["Param4D_C"] = copyCurrentObject2;
            }
            else
            {
                if ((((copyCurrentObject["Param4D"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") !=
                        (ui.paramNameEdit_2->toPlainText()).replace(" ", "")) ||
                        (((copyCurrentObject["Param4D_C"].toObject())["Component"].toArray())[IndexcurrentComponent].toString().replace(" ", "") !=
                                                (ui.paramNameEdit_2->toPlainText()).replace(" ", ""))
                        )
                {
                    appednew(copyCurrentObject2, "Component", ui.paramNameEdit_2);
                    appednew(copyCurrentObject2, "Fx", ui.XEdit_2);
                    appednew(copyCurrentObject2, "Fy", ui.YEdit_2);
                    appednew(copyCurrentObject2, "Fz", ui.ZEdit_2);
                    appednew(copyCurrentObject2, "Fw", ui.WEdit_2);
                    appednew(copyCurrentObject2, "Umin", ui.umin_2);
                    appednew(copyCurrentObject2, "Umax", ui.umax_2);
                    appednew(copyCurrentObject2, "Vmin", ui.vmin_2);
                    appednew(copyCurrentObject2, "Vmax", ui.vmax_2);
                    if (copyCurrentObject2["Grid"].isArray())
                    {
                        array = copyCurrentObject2["Grid"].toArray();
                        int pos=2*IndexcurrentComponent;
                        array.append((array.at(pos).toString()));
                        array.append((array.at(pos+1).toString()));
                        copyCurrentObject2["Grid"] = array;
                    }
                    else
                        copyCurrentObject2.remove("Grid");
                    if(copyCurrentObject["Param4D"].isObject())
                        copyCurrentObject["Param4D"] = copyCurrentObject2;
                    else
                        copyCurrentObject["Param4D_C"] = copyCurrentObject2;
                }
                else
                {
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Component", ui.paramNameEdit_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fx", ui.XEdit_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fy", ui.YEdit_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fz", ui.ZEdit_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Fw", ui.WEdit_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Umin", ui.umin_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Umax", ui.umax_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Vmin", ui.vmin_2);
                    insertat(IndexcurrentComponent, copyCurrentObject2, "Vmax", ui.vmax_2);

                    if(copyCurrentObject["Param4D"].isObject())
                        copyCurrentObject["Param4D"] = copyCurrentObject2;
                    else
                        copyCurrentObject["Param4D_C"] = copyCurrentObject2;
                }
            }
        }
    }
}

void DrawingOptions::RunUpdatedJObject(QJsonObject &CurrentObject)
{
    if (IndexcurrentComponent != -1)
    {
        if (CurrentObject["Iso3D"].isObject())
        {
            CurrentObject.remove("Param3D");CurrentObject.remove("Param3D_C");
            CurrentObject.remove("Param4D");CurrentObject.remove("Param4D_C");
            CurrentObject.remove("ParIso");
            DrawJsonModel(CurrentObject);
        }
        else if (CurrentObject["Param3D"].isObject() || CurrentObject["Param3D_C"].isObject())
        {
            CurrentObject.remove("Iso3D");
            CurrentObject.remove("Param4D");CurrentObject.remove("Param4D_C");
            CurrentObject.remove("ParIso");
            DrawJsonModel(CurrentObject);
        }
        else if (CurrentObject["Param4D"].isObject() || CurrentObject["Param4D_C"].isObject())
        {
            CurrentObject.remove("Iso3D");
            CurrentObject.remove("Param3D");CurrentObject.remove("Param3D_C");
            CurrentObject.remove("ParIso");
            DrawJsonModel(CurrentObject);
        }
        else
        {
            CurrentObject.remove("Iso3D");
            CurrentObject.remove("Param3D");
            CurrentObject.remove("Param4D");
            CurrentObject.remove("Param3D_C");
            CurrentObject.remove("Param4D_C");
            DrawJsonModel(CurrentObject);
        }
    }
}

void DrawingOptions::on_updateButton_clicked()
{
    QJsonObject CurrentObject = MathmodRef->RootObjet.CurrentJsonObject;
    QJsonObject parisoComponent;
    if (CurrentObject["ParIso"].isArray())
    {
        QJsonArray listeObj = CurrentObject["ParIso"].toArray();
        QJsonArray listeIsoObj;
        QJsonArray listeParObj;
        for (int i = 0; i < listeObj.size(); i++)
            if ((listeObj[i].toObject())["Iso3D"].isObject())
                listeIsoObj.append(listeObj[i].toObject());
            else
                listeParObj.append(listeObj[i].toObject());
        int page = ui.parisocomboBox->currentIndex();
        if (page == 1) // Iso3D
        {
            parisoComponent = listeIsoObj[0].toObject();
            on_updateJObject(parisoComponent);
            QJsonArray newlisteObj;
            newlisteObj.append(parisoComponent);
            if (listeParObj.size() > 0)
                newlisteObj.append(listeParObj[0].toObject());
            CurrentObject["ParIso"] = newlisteObj;
            RunUpdatedJObject(CurrentObject);
        }
        else if (page == 0)   // Param3D
        {
            parisoComponent = listeParObj[0].toObject();
            on_updateJObject(parisoComponent);
            QJsonArray newlisteObj;
            newlisteObj.append(parisoComponent);
            if (listeIsoObj.size() > 0)
                newlisteObj.append(listeIsoObj[0].toObject());
            CurrentObject["ParIso"] = newlisteObj;
            RunUpdatedJObject(CurrentObject);
        }
    }
    else
    {
        CurrentObject.remove("ParIso");
        on_updateJObject(CurrentObject);
        RunUpdatedJObject(CurrentObject);
    }
}

void DrawingOptions::on_updateParam_clicked()
{
    on_updateButton_clicked();
}

void DrawingOptions::on_actionPolygonWavefront_obj_triggered()
{
    MathmodRef->SaveSceneAsObjPoly();
}

void DrawingOptions::on_actionColorPolygonWavefront_obj_triggered()
{
    MathmodRef->SaveSceneAsObjPoly(1);
}

void DrawingOptions::on_linecolumn_2_valueChanged(int value)
{
    ui.ParamgroupBox_2->setTitle("Grid(u,v)/MaxGrid = (" + QString::number(value) +
                                 ", " + QString::number(value) +") / "+QString::number(Parameters->ParMaxGrid));
    if (!MathmodRef->ParObjet->isRunning())
    {
        (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray()) ?
        MathmodRef->linecolumn_valueChanged(value, PARISO_TYPE) : MathmodRef->linecolumn_valueChanged(value, PAR_TYPE);
    }
    else
    {
        ui.uv->blockSignals(true);
        ui.uv->setChecked(false);
        ui.uv->blockSignals(false);
        MathmodRef->uvactivated = -1;
    }
}

void DrawingOptions::on_lineScrollBar_valueChanged(int value)
{
    ui.ParamgroupBox_2->setTitle(
        "Grid(u,v)/MaxGrid = (" + QString::number(value) + ", " +
        QString::number(MathmodRef->ParObjet->Ugrid) +") / "+QString::number(Parameters->ParMaxGrid));
    if (!MathmodRef->ParObjet->isRunning())
    {
        MathmodRef->line_valueChanged(value);
    }
    else
    {
        ui.uv->blockSignals(true);
        ui.uv->setChecked(false);
        ui.uv->blockSignals(false);
        MathmodRef->uvactivated = -1;
    }
}

void DrawingOptions::on_coloneScrollBar_valueChanged(int value)
{
    ui.ParamgroupBox_2->setTitle(
        "Param Grid(u,v)/MaxGrid = (" +
        QString::number(MathmodRef->ParObjet->Vgrid) + ", " +
        QString::number(value) +") / "+QString::number(Parameters->ParMaxGrid));
    if (!MathmodRef->ParObjet->isRunning())
    {
        MathmodRef->column_valueChanged(value);
    }
    else
    {
        ui.uv->blockSignals(true);
        ui.uv->setChecked(false);
        ui.uv->blockSignals(false);
        MathmodRef->uvactivated = -1;
    }
}

void DrawingOptions::on_IsoComponent_activated(int index)
{
    UpdateDescription(index, ISO_TYPE, MathmodRef->RootObjet.CurrentTreestruct);
    updateShowIsoCmp(index);
}
void DrawingOptions::updateShowParComp(int index)
{
    if(MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[index])
    {
        ui.ShowParComp->setChecked(true);
        ui.ShowParComp->setText("Hide");
    }
    else
    {
        ui.ShowParComp->setChecked(false);
        ui.ShowParComp->setText("Show");
    }
}
void DrawingOptions::updateShowIsoCmp(int index)
{
    uint idx=0;
    if(!MathmodRef->LocalScene.componentsinfos.pariso)
        idx = index;
    else
        idx = MathmodRef->LocalScene.componentsinfos.NbComponentsType[0]+index;
    if(MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[idx])
    {
        ui.ShowIsoComp->setChecked(true);
        ui.ShowIsoComp->setText("Hide");
    }
    else
    {
        ui.ShowIsoComp->setChecked(false);
        ui.ShowIsoComp->setText("Show");
    }
}
void DrawingOptions::on_ParamComponent_activated(int index)
{
    UpdateDescription(index, PAR_TYPE, MathmodRef->RootObjet.CurrentTreestruct);
    updateShowParComp(index);
}

void DrawingOptions::on_xyzcheckBox2_clicked()
{
    MathmodRef->LocalScene.animxyz *= -1;
}

void DrawingOptions::on_xycheckBox2_clicked()
{
    MathmodRef->LocalScene.animx *= -1;
}

void DrawingOptions::on_xyhorizontalScrollBar2_valueChanged(int value)
{
    MathmodRef->LocalScene.animxValueStep = float(value) / 4;
}

void DrawingOptions::on_xzcheckBox2_clicked()
{
    MathmodRef->LocalScene.animy *= -1;
}

void DrawingOptions::on_xzhorizontalScrollBar2_valueChanged(int value)
{
    MathmodRef->LocalScene.animyValueStep = float(value) / 4;
}

void DrawingOptions::on_yzcheckBox2_clicked()
{
    MathmodRef->LocalScene.animz *= -1;
}

void DrawingOptions::on_yzhorizontalScrollBar2_valueChanged(int value)
{
    MathmodRef->LocalScene.animzValueStep = float(value) / 4;
}

void DrawingOptions::on_InitMatrix_2_clicked()
{
    MathmodRef->LocalScene.RotStrength =
        MathmodRef->LocalScene.animxValueStep =
            MathmodRef->LocalScene.animyValueStep =
                MathmodRef->LocalScene.animzValueStep = 0.0;
}

void DrawingOptions::on_xycheckBox_clicked()
{
    MathmodRef->ParObjet->tetaxy_ok *= -1;
}

void DrawingOptions::on_xyhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetaxy = value / 4.0;
}

void DrawingOptions::on_xzcheckBox_clicked()
{
    MathmodRef->ParObjet->tetaxz_ok *= -1;
}

void DrawingOptions::on_xzhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetaxz = value / 4.0;
}

void DrawingOptions::on_yzcheckBox_clicked()
{
    MathmodRef->ParObjet->tetayz_ok *= -1;
}

void DrawingOptions::on_yzhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetayz = value / 4.0;
}

void DrawingOptions::on_xwcheckBox_clicked()
{
    MathmodRef->ParObjet->tetaxw_ok *= -1;
}

void DrawingOptions::on_xwhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetaxw = value / 4.0;
}

void DrawingOptions::on_ywcheckBox_clicked()
{
    MathmodRef->ParObjet->tetayw_ok *= -1;
}

void DrawingOptions::on_ywhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetayw = value / 4.0;
}

void DrawingOptions::on_zwcheckBox_clicked()
{
    MathmodRef->ParObjet->tetazw_ok *= -1;
}

void DrawingOptions::on_zwhorizontalScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->tetazw = value / 4.0;
}

void DrawingOptions::on_linecolumn_3_valueChanged(int value)
{
    ui.ParamgroupBox_3->setTitle("Grid(u,v)/MaxGrid = (" + QString::number(value) +
                                 ", " + QString::number(value) +") / "+QString::number(Parameters->ParMaxGrid));
    if (!MathmodRef->ParObjet->isRunning())
    {
        MathmodRef->linecolumn_valueChanged_2(value);
    }
    else
    {
        ui.uv4D->blockSignals(true);
        ui.uv4D->setChecked(false);
        ui.uv4D->blockSignals(false);
        MathmodRef->uvactivated4D = -1;
    }
}

void DrawingOptions::oncolor_4activated(int index)
{
    MathmodRef->colorstypeParam(index);
}

void DrawingOptions::on_uv4D_clicked()
{
    MathmodRef->slot_uv4D_clicked();
}

void DrawingOptions::on_uv_clicked()
{
    (MathmodRef->RootObjet.CurrentJsonObject["ParIso"].isArray()) ?
    MathmodRef->slot_uv_clicked(PARISO_TYPE) : MathmodRef->slot_uv_clicked(PAR_TYPE);
}

void DrawingOptions::on_InitMatrix_clicked()
{
    MathmodRef->ParObjet->mat4D.unit();
    on_calculate_clicked();
}

void DrawingOptions::on_ActivateCND_clicked(bool checked)
{
    ui.CNDgroupBox->setEnabled(checked);
    MathmodRef->LocalScene.activarecnd = checked;
    MathmodRef->update();
}

void DrawingOptions::on_TCNDcheckBox_clicked(bool checked)
{
    MathmodRef->LocalScene.cndoptions[3] = checked;
    MathmodRef->update();
}

void DrawingOptions::on_FCNDcheckBox_clicked(bool checked)
{
    MathmodRef->LocalScene.cndoptions[0] = checked;
    MathmodRef->update();
}

void DrawingOptions::on_TNCNDcheckBox_clicked(bool checked)
{
    MathmodRef->LocalScene.cndoptions[4] = checked;
    MathmodRef->update();
}

void DrawingOptions::on_FNCNDcheckBox_clicked(bool checked)
{
    MathmodRef->LocalScene.cndoptions[1] = checked;
    MathmodRef->update();
}

void DrawingOptions::on_TBordercheckBox_clicked(bool checked)
{
    MathmodRef->LocalScene.cndoptions[2] = checked;
    MathmodRef->update();
}

void DrawingOptions::on_actionMesh_triggered()
{
    MathmodRef->Mesh();
}

void DrawingOptions::on_calculate_clicked()
{
    on_InitTButton_clicked();
    Run_JsonObject_activeted();
}

void DrawingOptions::on_actionAbout_2_triggered()
{
    ab.show();
}

void DrawingOptions::on_actionLoad_json_script_triggered()
{
    LoadNewFileModels(true);
}

void DrawingOptions::on_actionScreenshot_triggered()
{
    videoplay();
}

void DrawingOptions::on_actionEditor_triggered()
{
    editorwin();
}

void DrawingOptions::on_cut_clicked()
{
    if (ui.IsoComponent->count() > 1)
    {
        ui.isoNameEdit->setText("");
        on_updateButton_clicked();
    }
    else
    {
        QMessageBox msgBox;
        msgBox.setText("Only one component in this mathematical model.");
        msgBox.exec();
    }
}

void DrawingOptions::on_actionConvert_K3DS_script_triggered()
{
    LoadK3DSurfScript("", 1);
}

void DrawingOptions::on_ParamComponent_2_activated(int index)
{
    UpdateDescription(index, PAR_4D_TYPE,
                      MathmodRef->RootObjet.CurrentTreestruct);
}

void DrawingOptions::on_updateParam_2_clicked()
{
    on_updateButton_clicked();
}

void DrawingOptions::Multiplier(int x, int y, int z, QJsonObject &iso,
                                int index)
{
    QString Minx, Miny, Minz, Maxx, Maxy, Maxz;
    QString Difx, Dify, Difz;
    QString componentName, fct, cnd, grid;
    QJsonArray oldminx, oldminy, oldminz, oldmaxx, oldmaxy, oldmaxz, oldcmpname,
               oldfxyz, oldcnd, oldgrid;
    bool cndb = false;
    bool gridb = false;
    oldminx = iso["Iso3D"].toObject()["Xmin"].toArray();
    oldminy = iso["Iso3D"].toObject()["Ymin"].toArray();
    oldminz = iso["Iso3D"].toObject()["Zmin"].toArray();
    oldmaxx = iso["Iso3D"].toObject()["Xmax"].toArray();
    oldmaxy = iso["Iso3D"].toObject()["Ymax"].toArray();
    oldmaxz = iso["Iso3D"].toObject()["Zmax"].toArray();
    oldcmpname = iso["Iso3D"].toObject()["Component"].toArray();
    oldfxyz = iso["Iso3D"].toObject()["Fxyz"].toArray();
    if ((gridb = (iso["Iso3D"].toObject()["Grid"].isArray())))
        grid =
            (oldgrid = iso["Iso3D"].toObject()["Grid"].toArray())[index].toString();
    if ((cndb = (iso["Iso3D"].toObject()["Cnd"].isArray())))
        cnd = (oldcnd = iso["Iso3D"].toObject()["Cnd"].toArray())[index].toString();
    componentName = oldcmpname[index].toString();
    fct = oldfxyz[index].toString();
    Minx = "(" + oldminx[index].toString() + ")";
    Miny = "(" + oldminy[index].toString() + ")";
    Minz = "(" + oldminz[index].toString() + ")";
    Maxx = "(" + oldmaxx[index].toString() + ")";
    Maxy = "(" + oldmaxy[index].toString() + ")";
    Maxz = "(" + oldmaxz[index].toString() + ")";
    Difx = "((" + Maxx + "-" + Minx + ")/" + QString::number(x) + ")";
    Dify = "((" + Maxy + "-" + Miny + ")/" + QString::number(y) + ")";
    Difz = "((" + Maxz + "-" + Minz + ")/" + QString::number(z) + ")";
    int l = 0;
    for (int i = 0; i < x; i++)
        for (int j = 0; j < y; j++)
            for (int k = 0; k < z; k++)
            {
                oldminx.append(Minx + "+" + QString::number(i) + "*" + Difx);
                oldmaxx.append(Minx + "+" + QString::number(i + 1) + "*" + Difx);
                oldminy.append(Miny + "+" + QString::number(j) + "*" + Dify);
                oldmaxy.append(Miny + "+" + QString::number(j + 1) + "*" + Dify);
                oldminz.append(Minz + "+" + QString::number(k) + "*" + Difz);
                oldmaxz.append(Minz + "+" + QString::number(k + 1) + "*" + Difz);
                oldcmpname.append(componentName + QString::number(l));
                oldfxyz.append(fct);
                if (cndb)
                    oldcnd.append(cnd);
                if (gridb)
                    oldgrid.append(grid);
                l++;
            }
    oldminx.removeAt(index);
    oldminy.removeAt(index);
    oldminz.removeAt(index);
    oldmaxx.removeAt(index);
    oldmaxy.removeAt(index);
    oldmaxz.removeAt(index);
    oldcmpname.removeAt(index);
    oldfxyz.removeAt(index);
    if (cndb)
        oldcnd.removeAt(index);
    if (gridb)
        oldgrid.removeAt(index);
    QJsonObject tmp = iso["Iso3D"].toObject();
    tmp["Xmin"] = oldminx;
    tmp["Ymin"] = oldminy;
    tmp["Zmin"] = oldminz;
    tmp["Xmax"] = oldmaxx;
    tmp["Ymax"] = oldmaxy;
    tmp["Zmax"] = oldmaxz;
    tmp["Component"] = oldcmpname;
    tmp["Fxyz"] = oldfxyz;
    if (cndb)
        tmp["Cnd"] = oldcnd;
    if (gridb)
        tmp["Grid"] = oldgrid;
    iso["Iso3D"] = tmp;
}

void DrawingOptions::on_Multiplier_clicked()
{
    int i = ui.xcomboBox->currentIndex(), j = ui.ycomboBox->currentIndex(),
        k = ui.zcomboBox->currentIndex();
    if (i > 0 && j > 0 && k > 0)
    {
        QJsonObject copyCurrentObject = MathmodRef->RootObjet.CurrentJsonObject;
        // Erase unused Keys:
        copyCurrentObject.remove("Param3D");
        copyCurrentObject.remove("Param4D");
        copyCurrentObject.remove("Param3D_C");
        copyCurrentObject.remove("Param4D_C");
        Multiplier(i, j, k, copyCurrentObject, IndexcurrentComponent);
        // Draw here
        DrawJsonModel(copyCurrentObject);
    }
    // Init Combo
    ui.xcomboBox->setCurrentIndex(0);
    ui.ycomboBox->setCurrentIndex(0);
    ui.zcomboBox->setCurrentIndex(0);
}

void DrawingOptions::UpdateGuiMaxgrid()
{
    int maxgrd = int(Parameters->IsoMaxGrid);
    ui.xyzg->blockSignals(true);
    ui.xyzg->setMaximum(maxgrd);
    ui.xyzg->setValue(int(InitIsoGrid));
    ui.Isogroupbox->setTitle("Iso Grid/Max Grid ("+QString::number(int(InitIsoGrid)) +"/500 ) :");
    ui.xyzg->blockSignals(false);
    ui.linecolumn_2->blockSignals(true);
    ui.linecolumn_2->setMaximum(int(Parameters->ParMaxGrid));
    ui.linecolumn_2->setValue(int(InitParGrid));
    ui.linecolumn_2->blockSignals(false);
    ui.linecolumn_3->blockSignals(true);
    ui.linecolumn_3->setMaximum(int(Parameters->ParMaxGrid));
    ui.linecolumn_3->setValue(int(InitParGrid));
    ui.linecolumn_3->blockSignals(false);
}

void DrawingOptions::UpdateGui(int argc)
{

    UpdateGuiMaxgrid();
    ListeModelTexture LstModelTexture = (Parameters->LoadCollectionModels(
            JSONMathModels, MathmodRef->collection, argc));
    // Load the script containing isosurface and parametric formulas:
    ui.choice->insertItems(0, LstModelTexture.listeModels);
    ui.comboBoxTexture->insertItems(0, LstModelTexture.listeTextures);
    ui.comboBoxPigment->insertItems(0, LstModelTexture.listePigments);
    ui.Messagetext->hide();
    AddListModels();

    // Threads setting:
    SetThreadValues(Threads);
    // OpenGl specular:
    SetSpecularValues(Parameters->Specular);
    // OpenGl shininess:
    SetShininessValue(Parameters->Shininess);
    // OpenGl diffuse:
    SetDiffuseValues(Parameters->Diffuse);
    // OpenGl Ambient:
    SetAmbientValues(Parameters->Ambient);
    // Gl Front Face Suupport

    if(!Parameters->glFrontFacingSupport)
        SetglFrontFacingSupport();

    QList<int> Sizes1;
    Sizes1 << 600 << 750;
    ui.splitter_9->setSizes(Sizes1);

    // Pigment/texture
    ui.textureEdit->hide();
    // Hide all sliders
    HideSliders();

    // ProgressBar + text informations (set to minimum size 0)
    ui.Messagetext->setFontPointSize(12);

    // Script Editor font size
    ui.ScriptEditor->setFontPointSize(Parameters->scripteditorfontsize);
}

void DrawingOptions::on_TimeStepScrollBar_valueChanged(int value)
{
    double P = 1.0 / double(value);
    uint maxnbthreads = MathmodRef->IsoObjet->WorkerThreadsNumber;
    ui.label_5->setText("1/" + QString::number(value));
    MathmodRef->IsoObjet->masterthread->pace = P;
    for (uint nbthreds = 0; nbthreds < maxnbthreads - 1; nbthreds++)
        MathmodRef->IsoObjet->workerthreads[nbthreds].pace = P;
    MathmodRef->ParObjet->masterthread->pace = P;
    for (uint nbthreds = 0; nbthreds < maxnbthreads - 1; nbthreds++)
        MathmodRef->ParObjet->workerthreads[nbthreds].pace = P;
}

void DrawingOptions::on_InitTButton_clicked()
{
    uint maxnbthreads = MathmodRef->IsoObjet->WorkerThreadsNumber;
    MathmodRef->IsoObjet->masterthread->stepMorph = 0;
    for (uint nbthreds = 0; nbthreds < maxnbthreads - 1; nbthreds++)
        MathmodRef->IsoObjet->workerthreads[nbthreds].stepMorph = 0;
    MathmodRef->ParObjet->masterthread->stepMorph = 0;
    for (uint nbthreds = 0; nbthreds < maxnbthreads - 1; nbthreds++)
        MathmodRef->ParObjet->workerthreads[nbthreds].stepMorph = 0;
}

void DrawingOptions::ShowErrorMessage(QJsonParseError &err, QString &script)
{
    QString sortie;
    QMessageBox message;
    message.setWindowTitle("Error at : ");
    sortie = (script);
    int before, after;
    if (sortie.length() > (err.offset + 30))
        after = 30;
    else
        after = sortie.length() - err.offset;
    sortie.truncate(err.offset + after);
    if (err.offset - 30 > 0)
        before = 30;
    else
        before = 0;
    sortie = sortie.remove(0, err.offset - before);
    sortie.replace("\t", " ");
    sortie.replace("\n", " ");
    sortie.insert(before, " >>> Error <<< ");
    message.setText("Error : " + err.errorString() +
                    " at position: " + QString::number(err.offset) +
                    "\n\n***********\n" + "..." + sortie + "...");
    message.adjustSize();
    message.exec();
    return;
}

void DrawingOptions::ReadCollectionFile(QString JsonFileName,
        QJsonObject &js)
{
    QJsonParseError err;
    QString sortie;
    QFile JsonFile(JsonFileName);
    if (!JsonFile.exists())
    {
        QFile file2(":/mathmodcollection_empty.js");
        file2.copy(JsonFileName);
        QFile::setPermissions(JsonFileName,
                              QFileDevice::ReadOwner | QFileDevice::WriteOwner);
    }
    QFile file(JsonFileName);
    if (file.open(QIODevice::ReadOnly | QIODevice::Text))
    {
        QJsonDocument doc = QJsonDocument::fromJson(
                                ((file.readAll()).trimmed())
                                .replace("\n", "")
                                .replace("\t", "")
                                .replace("DOTSYMBOL", Parameters->dotsymbol.toStdString().c_str()),
                                &err);
        if (err.error)
        {
            QMessageBox message;
            message.setWindowTitle("Error at : " + JsonFileName);
            file.close();
            file.open(QIODevice::ReadOnly | QIODevice::Text);
            sortie = (file.readAll());
            int before, after;
            if (sortie.length() > (err.offset + 30))
                after = 30;
            else
                after = sortie.length() - err.offset;
            sortie.truncate(err.offset + after);
            if (err.offset - 30 > 0)
                before = 30;
            else
                before = 0;
            sortie = sortie.remove(0, err.offset - before);
            sortie.replace("\t", " ");
            sortie.replace("\n", " ");
            sortie.insert(before, " >>> Error <<< ");
            message.setText("Error : " + err.errorString() +
                            " at position: " + QString::number(err.offset) +
                            "\n\n***********\n" + "..." + sortie + "...");
            message.adjustSize();
            message.exec();
            file.close();
            return;
        }
        js = doc.object();
        file.close();
    }
    return;
}

void DrawingOptions::SaveToFile_CurentMathModel(
    QJsonObject CurrentJsonObject)
{
    QString fileName = QFileDialog::getSaveFileName(this, "Save to file", "",
                       "JSON Files (*.js)");
    if (fileName != "")
    {
        QJsonObject collection;
        ReadCollectionFile(fileName, collection);
        QJsonDocument document;
        if (collection["MathModels"].isArray())
        {
            QJsonArray array = collection["MathModels"].toArray();
            array.append(CurrentJsonObject);
            collection["MathModels"] = array;
            document.setObject(collection);
            QFile f(fileName);
            if (f.open(QIODevice::ReadWrite | QIODevice::Text))
            {
                QTextStream t(&f);
                QString tmp = QString(document.toJson()).toLatin1();
                t << tmp.toUtf8();
                f.close();
            }
        }
    }
}

void DrawingOptions::on_pushButton_2_clicked()
{
    QJsonParseError err;
    QString sortie;
    QString script =
        ui.ScriptEditor->toPlainText().trimmed().replace("\n", "").replace("\t", "").replace("DOTSYMBOL", Parameters->dotsymbol.toStdString().c_str());
    QJsonDocument doc = QJsonDocument::fromJson(script.toUtf8(), &err);
    if (err.error)
    {
        ShowErrorMessage(err, script);
        return;
    }
    SaveToFile_CurentMathModel(doc.object());
}

void DrawingOptions::on_pushButton_3_clicked()
{
    ui.isoNameEdit->setText(ui.isoNameEdit->toPlainText() + "_01");
    on_updateButton_clicked();
}

void DrawingOptions::on_cut_2_clicked()
{
    if (ui.ParamComponent->count() > 1)
    {
        ui.paramNameEdit->setText("");
        on_updateButton_clicked();
    }
    else
    {
        QMessageBox msgBox;
        msgBox.setText("Only one component in this mathematical model.");
        msgBox.exec();
    }
}

void DrawingOptions::on_pushButton_4_clicked()
{
    ui.paramNameEdit->setText(ui.paramNameEdit->toPlainText() + "_01");
    on_updateButton_clicked();
}

void DrawingOptions::on_color_5_activated(int index)
{
    MathmodRef->colorstypeParIso(index);
}

void DrawingOptions::on_transparent_ParIso_valueChanged(int value)
{
    MathmodRef->transparency(value, IndexcurrentComponent);
}

void DrawingOptions::on_comboBoxTexture_activated(int index)
{
    QJsonObject tmp;
    tmp = MathmodRef->RootObjet.CurrentJsonObject;

    if (index > 0)
    {
        QJsonDocument document;
        document.setObject(MathmodRef->collection.JTextures[index - 1].toObject());
        ui.textureEdit->setText(QString(document.toJson()));
        DrawJsonModel(tmp, index - 1);
    }
    return;
}

void DrawingOptions::on_comboBoxPigment_activated(int index)
{
    QJsonObject tmp;
    tmp = MathmodRef->RootObjet.CurrentJsonObject;
    if (index > 0)
    {
        QJsonDocument document;
        document.setObject(MathmodRef->collection.JPigments[index - 1].toObject());
        ui.textureEdit->setText(QString(document.toJson()));
        DrawJsonModel(tmp, 1000 + index - 1);
    }
    return;
}

void DrawingOptions::on_actionTrianglesWavefront_obj_triggered()
{
    MathmodRef->SaveSceneAsObjTrian();
}

void DrawingOptions::on_actionColorTrianglesWavefront_obj_triggered()
{
    MathmodRef->SaveSceneAsObjTrian(1);
}

void DrawingOptions::on_ShowtextureScript_clicked()
{
    static int show = -1;
    show *= -1;
    if (show == 1)
    {
        ui.textureEdit->show();
        ui.ShowtextureScript->setText("Hide Script");
    }
    else
    {
        ui.textureEdit->hide();
        ui.ShowtextureScript->setText("Show Script");
    }
}

void DrawingOptions::on_pushButton_5_clicked()
{
    QJsonParseError err;
    QString sortie;
    QString script = ui.textureEdit->toPlainText().trimmed().replace("\n", "").replace("\t", "").replace("DOTSYMBOL", Parameters->dotsymbol.toStdString().c_str());
    QJsonDocument doc = QJsonDocument::fromJson(script.toUtf8(), &err);
    if (err.error)
    {
        ShowErrorMessage(err, script);
        return;
    }
    QJsonObject tmp = doc.object();
    if (tmp["Texture"].isObject())
    {
        MathmodRef->collection.JTextures[ui.comboBoxTexture->currentIndex() - 1] =doc.object();
        on_comboBoxTexture_activated(ui.comboBoxTexture->currentIndex());
    }
    else
    {
        MathmodRef->collection.JPigments[ui.comboBoxPigment->currentIndex() - 1] =doc.object();
        on_comboBoxPigment_activated(ui.comboBoxPigment->currentIndex());
    }
}

void DrawingOptions::on_C1ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 0);
}

void DrawingOptions::on_C2ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 1);
}

void DrawingOptions::on_C3ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 2);
}

void DrawingOptions::on_C4ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 3);
}

void DrawingOptions::on_C5ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 4);
}

void DrawingOptions::on_C6ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 5);
}

void DrawingOptions::on_C7ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 6);
}

void DrawingOptions::on_C8ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 7);
}

void DrawingOptions::on_C9ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 8);
}

void DrawingOptions::on_C10ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 9);
}

void DrawingOptions::on_C11ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 10);
}

void DrawingOptions::on_C12ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 11);
}

void DrawingOptions::on_C13ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 12);
}

void DrawingOptions::on_C14ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 13);
}

void DrawingOptions::on_C15ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 14);
}

void DrawingOptions::on_C16ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 15);
}

void DrawingOptions::on_C17ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 16);
}

void DrawingOptions::on_C18ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 17);
}

void DrawingOptions::on_C19ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 18);
}

void DrawingOptions::on_C20ScrollBar_valueChanged(int val)
{
    CScrollBar_valueChanged(val, 19);
}

void DrawingOptions::CScrollBar_valueChanged(int val, int idx)
{
    MathmodRef->LocalScene.slider = 1;
    MathmodRef->IsoObjet->masterthread->SliderValues[uint(idx)] =val;
    MathmodRef->ParObjet->masterthread->SliderValues[uint(idx)] =val;
    SliderArray[idx].SliderLabel->setText(qlstnames.at(idx) + " = " +QString::number(val));
    if (CurrentFormulaType == 2)
        MathmodRef->ProcessNewIsoSurface();
    else
        MathmodRef->ParametricSurfaceProcess(CurrentFormulaType);
    MathmodRef->LocalScene.slider = -1;
}

void DrawingOptions::on_PredefinedSets_activated(int index)
{
    indexcurrentSet = index;
    if (index > 0)
    {
        int size = (qlstnames.size());
        MathmodRef->LocalScene.slider = 1;
        for (int i = 0; i < size; ++i)
        {
            MathmodRef->IsoObjet->masterthread->SliderValues[uint(i)] =
                qlstPos.at(i + (index - 1) * size).toDouble();
            MathmodRef->ParObjet->masterthread->SliderValues[uint(i)] =
                qlstPos.at(i + (index - 1) * size).toDouble();
        }
        for (int sl = 0; sl < 20; sl++)
        {
            if (size >= (sl + 1))
            {
                (SliderArray[sl].SliderLabel)
                ->setText(qlstnames.at(sl) + " = " +qlstPos.at(sl + (index - 1) * size) + "(" +qlstStep.at(sl) + ")");
                (SliderArray[sl].SliderScrollBar)->blockSignals(true);
                if (qlstmin.size() > qlstnames.size())
                {
                    (SliderArray[sl].SliderScrollBar)->setMaximum(qlstmax.at(sl + (index - 1) * size).toInt());
                    (SliderArray[sl].SliderScrollBar)->setMinimum(qlstmin.at(sl + (index - 1) * size).toInt());
                    (SliderArray[sl].SliderScrollBar)->setSingleStep(qlstStep.at(sl + (index - 1) * size).toInt());
                    (SliderArray[sl].SliderLabel)->setText(qlstnames.at(sl) + " = " +qlstPos.at(sl + (index - 1) * size) + "(" +qlstStep.at(sl + (index - 1) * size) + ")");
                    (SliderArray[sl].SliderLabelMin)->setText(qlstmin.at(sl + (index - 1) * size));
                    (SliderArray[sl].SliderLabelMax)->setText(qlstmax.at(sl + (index - 1) * size));
                }
                (SliderArray[sl].SliderScrollBar)->setSliderPosition(qlstPos.at(sl + (index - 1) * size).toInt());
                (SliderArray[sl].SliderScrollBar)->blockSignals(false);
            }
        }
        // Draw
        if (CurrentFormulaType == 2)
            MathmodRef->ProcessNewIsoSurface();
        else
            MathmodRef->ParametricSurfaceProcess(CurrentFormulaType);
        MathmodRef->LocalScene.slider = -1;
    }
}
void DrawingOptions::CIndextoolButton_clicked(int idx)
{
    int range = (indexcurrentSet < 1)? (idx - 1) : (indexcurrentSet - 1) * qlstnames.size() + (idx - 1);
    sliderconf.currentSlider = (idx - 1);
    sliderconf.ui.MaxEdit->setText(qlstmax[range]);
    sliderconf.ui.MinEdit->setText(qlstmin[range]);
    sliderconf.ui.StepEdit->setText(qlstStep[range]);
    sliderconf.ui.PosEdit->setText(qlstPos[range]);
    sliderconf.ui.ParametersComboBox->blockSignals(true);
    sliderconf.ui.ParametersComboBox->setCurrentIndex(idx);
    sliderconf.ui.ParametersComboBox->blockSignals(false);
    sliderconf.show();
}

void DrawingOptions::on_C20toolButton_clicked()
{
    CIndextoolButton_clicked(20);
}

void DrawingOptions::on_C19toolButton_clicked()
{
    CIndextoolButton_clicked(19);
}

void DrawingOptions::on_C18toolButton_clicked()
{
    CIndextoolButton_clicked(18);
}

void DrawingOptions::on_C17toolButton_clicked()
{
    CIndextoolButton_clicked(17);
}

void DrawingOptions::on_C16toolButton_clicked()
{
    CIndextoolButton_clicked(16);
}

void DrawingOptions::on_C15toolButton_clicked()
{
    CIndextoolButton_clicked(15);
}

void DrawingOptions::on_C14toolButton_clicked()
{
    CIndextoolButton_clicked(14);
}

void DrawingOptions::on_C13toolButton_clicked()
{
    CIndextoolButton_clicked(13);
}

void DrawingOptions::on_C12toolButton_clicked()
{
    CIndextoolButton_clicked(12);
}

void DrawingOptions::on_C11toolButton_clicked()
{
    CIndextoolButton_clicked(11);
}

void DrawingOptions::on_C10toolButton_clicked()
{
    CIndextoolButton_clicked(10);
}

void DrawingOptions::on_C9toolButton_clicked()
{
    CIndextoolButton_clicked(9);
}

void DrawingOptions::on_C8toolButton_clicked()
{
    CIndextoolButton_clicked(8);
}

void DrawingOptions::on_C7toolButton_clicked()
{
    CIndextoolButton_clicked(7);
}

void DrawingOptions::on_C6toolButton_clicked()
{
    CIndextoolButton_clicked(6);
}

void DrawingOptions::on_C5toolButton_clicked()
{
    CIndextoolButton_clicked(5);
}

void DrawingOptions::on_C4toolButton_clicked()
{
    CIndextoolButton_clicked(4);
}

void DrawingOptions::on_C3toolButton_clicked()
{
    CIndextoolButton_clicked(3);
}

void DrawingOptions::on_C2toolButton_clicked()
{
    CIndextoolButton_clicked(2);
}

void DrawingOptions::on_C1toolButton_clicked()
{
    CIndextoolButton_clicked(1);
}

void DrawingOptions::update_slider_param()
{
    int SliderIndex = sliderconf.currentSlider;

    for (int sl = 0; sl < 20; sl++)
    {
        if (SliderIndex == sl)
        {
            qlstmax[sl] = sliderconf.ui.MaxEdit->text();
            qlstmin[sl] = sliderconf.ui.MinEdit->text();
            qlstStep[sl] = sliderconf.ui.StepEdit->text();
            qlstPos[sl] = sliderconf.ui.PosEdit->text();
            (SliderArray[sl].SliderScrollBar)->blockSignals(true);
            (SliderArray[sl].SliderScrollBar)->setMaximum(qlstmax.at(sl).toInt());
            (SliderArray[sl].SliderScrollBar)->setMinimum(qlstmin.at(sl).toInt());
            (SliderArray[sl].SliderScrollBar)->setSingleStep(qlstStep.at(sl).toInt());
            (SliderArray[sl].SliderScrollBar)->setPageStep(qlstStep.at(sl).toInt());
            (SliderArray[sl].SliderScrollBar)->setSliderPosition(qlstPos.at(sl).toInt());
            (SliderArray[sl].SliderLabel)->setText(qlstnames.at(sl) + " = " + qlstPos.at(sl) + "(" +qlstStep.at(sl) + ")");
            (SliderArray[sl].SliderLabelMin)->setText(qlstmin.at(sl));
            (SliderArray[sl].SliderLabelMax)->setText(qlstmax.at(sl));
            (SliderArray[sl].SliderScrollBar)->blockSignals(false);
            MathmodRef->IsoObjet->masterthread->SliderNames.push_back(qlstnames.at(sl).toStdString());
            MathmodRef->ParObjet->masterthread->SliderNames.push_back(qlstnames.at(sl).toStdString());
            MathmodRef->IsoObjet->masterthread->SliderValues.push_back(qlstPos.at(sl).toDouble());
            MathmodRef->ParObjet->masterthread->SliderValues.push_back(qlstPos.at(sl).toDouble());
        }
    }
    // Draw
    MathmodRef->LocalScene.slider = 1;
    if (CurrentFormulaType == 2)
        MathmodRef->ProcessNewIsoSurface();
    else
        MathmodRef->ParametricSurfaceProcess(CurrentFormulaType);
    MathmodRef->LocalScene.slider = -1;
}

void DrawingOptions::on_AddSetButton_clicked()
{
    QJsonArray array1, array2, array3, array4, array5;
    QJsonObject tmp, tmp2;
    tmp = MathmodRef->RootObjet.CurrentJsonObject;
    tmp2 = tmp["Sliders"].toObject();
    array2 = tmp2["Position"].toArray();
    array3 = tmp2["Min"].toArray();
    array4 = tmp2["Max"].toArray();
    array5 = tmp2["Step"].toArray();
    int size = qlstnames.size();
    if (tmp2["SetNames"].isArray())
    {
        array1 = tmp2["SetNames"].toArray();
        array1.append("Objet_"+QString::number(tmp2["SetNames"].toArray().size()));
    }
    else
        tmp2.remove("SetNames");
    for (int sl = 0; sl < 20; sl++)
    {
        if (size >= (sl + 1))
        {
            array2.append(QString::number((SliderArray[sl].SliderScrollBar)->sliderPosition()));
            array3.append(QString::number((SliderArray[sl].SliderScrollBar)->minimum()));
            array4.append(QString::number((SliderArray[sl].SliderScrollBar)->maximum()));
            array5.append(QString::number((SliderArray[sl].SliderScrollBar)->singleStep()));
        }
    }
    if (tmp2["SetNames"].isArray())
    {
        tmp2["SetNames"] = array1;
    }
    else
        tmp2.remove("SetNames");
    tmp2["Position"] = array2;
    tmp2["Min"] = array3;
    tmp2["Max"] = array4;
    tmp2["Step"] = array5;
    tmp["Sliders"] = tmp2;
    // Draw here
    DrawJsonModel(tmp);
}

void DrawingOptions::on_CutSetButton_clicked()
{
    int size2 = qlstPos.size();
    int size = qlstnames.size();
    if (size2 >= 2 * size)
    {
        QJsonArray array1, array2, array3, array4, array5;
        QJsonObject tmp, tmp2;
        tmp = MathmodRef->RootObjet.CurrentJsonObject;
        tmp2 = tmp["Sliders"].toObject();
        if (tmp2["SetNames"].isArray())
        {
            array1 = tmp2["SetNames"].toArray();
            array1.removeAt(indexcurrentSet - 1);
        }
        array2 = tmp2["Position"].toArray();
        for (int i = 0; i < size; i++)
            array2.removeAt((indexcurrentSet - 1) * size);
        array3 = tmp2["Min"].toArray();
        for (int i = 0; i < size; i++)
            array3.removeAt((indexcurrentSet - 1) * size);
        array4 = tmp2["Max"].toArray();
        for (int i = 0; i < size; i++)
            array4.removeAt((indexcurrentSet - 1) * size);
        array5 = tmp2["Step"].toArray();
        for (int i = 0; i < size; i++)
            array5.removeAt((indexcurrentSet - 1) * size);
        if (tmp2["SetNames"].isArray())
        {
            tmp2["SetNames"] = array1;
        }
        else
            tmp2.remove("SetNames");
        tmp2["Position"] = array2;
        tmp2["Min"] = array3;
        tmp2["Max"] = array4;
        tmp2["Step"] = array5;
        tmp["Sliders"] = tmp2;
        // Draw here
        DrawJsonModel(tmp);
    }
}

void DrawingOptions::on_AddParam_clicked()
{
    addnewparam.ui.NameEdit->setText("ParamName");
    addnewparam.ui.MaxEdit->setText("50");
    addnewparam.ui.MinEdit->setText("0");
    addnewparam.ui.StepEdit->setText("1");
    addnewparam.ui.PosEdit->setText("10");
    addnewparam.show();
}

void DrawingOptions::on_CutParam_clicked()
{
    int index = ui.ParametersList->currentIndex();
    if (index > 0)
    {
        QJsonArray array2;
        QJsonObject tmp, tmp2;
        int names, position;
        tmp = MathmodRef->RootObjet.CurrentJsonObject;
        tmp2 = tmp["Sliders"].toObject();
        array2 = tmp2["Name"].toArray();
        names = array2.size();
        array2.removeAt(index - 1);
        tmp2["Name"] = array2;
        array2 = tmp2["Max"].toArray();
        position = array2.size();
        for (int i = 0; i * names < position; i++)
            array2.removeAt(index - 1 - i + i * names);
        tmp2["Max"] = array2;
        array2 = tmp2["Min"].toArray();
        position = array2.size();
        for (int i = 0; i * names < position; i++)
            array2.removeAt(index - 1 - i + i * names);
        tmp2["Min"] = array2;
        array2 = tmp2["Step"].toArray();
        position = array2.size();
        for (int i = 0; i * names < position; i++)
            array2.removeAt(index - 1 - i + i * names);
        tmp2["Step"] = array2;
        array2 = tmp2["Position"].toArray();
        position = array2.size();
        for (int i = 0; i * names < position; i++)
            array2.removeAt(index - 1 - i + i * names);
        tmp2["Position"] = array2;
        tmp["Sliders"] = tmp2;
        // Draw here
        DrawJsonModel(tmp);
    }
}

void DrawingOptions::add_new_param()
{
    QJsonArray array2;
    QJsonObject tmp, tmp2;
    int names, position;
    tmp = MathmodRef->RootObjet.CurrentJsonObject;
    tmp2 = tmp["Sliders"].toObject();
    array2 = tmp2["Name"].toArray();
    names = array2.empty() ? 0 : array2.size();
    array2.append(addnewparam.ui.NameEdit->text());
    tmp2["Name"] = array2;
    array2 = tmp2["Position"].toArray();
    position = array2.empty() ? 0 : array2.size();
    if (names == 0)
        array2.append(addnewparam.ui.PosEdit->text());
    else
        for (int i = 1; i * names <= position; i++)
            array2.insert(i * names + i - 1, addnewparam.ui.PosEdit->text());
    tmp2["Position"] = array2;
    array2 = tmp2["Max"].toArray();
    position = array2.empty() ? 0 : array2.size();
    if (names == 0)
        array2.append(addnewparam.ui.MaxEdit->text());
    else
        for (int i = 1; i * names <= position; i++)
            array2.insert(i * names + i - 1, addnewparam.ui.MaxEdit->text());
    tmp2["Max"] = array2;
    array2 = tmp2["Min"].toArray();
    position = array2.empty() ? 0 : array2.size();
    if (names == 0)
        array2.append(addnewparam.ui.MinEdit->text());
    else
        for (int i = 1; i * names <= position; i++)
            array2.insert(i * names + i - 1, addnewparam.ui.MinEdit->text());
    tmp2["Min"] = array2;
    array2 = tmp2["Step"].toArray();
    position = array2.empty() ? 0 : array2.size();
    if (names == 0)
        array2.append(addnewparam.ui.StepEdit->text());
    else
        for (int i = 1; i * names <= position; i++)
            array2.insert(i * names + i - 1, addnewparam.ui.StepEdit->text());
    tmp2["Step"] = array2;
    tmp["Sliders"] = tmp2;
    // Draw here
    DrawJsonModel(tmp);
}

void DrawingOptions::update_infos_param(int index)
{
    CIndextoolButton_clicked(index);
    sliderconf.currentSlider = index - 1;
}

void DrawingOptions::on_actionFrames_triggered()
{
    MathmodRef->frames_clicked();
}

void DrawingOptions::SetSpecularValues(int *spec)
{
    ui.red_Specular->blockSignals(true);
    ui.red_Specular->setSliderPosition(spec[0]);
    ui.red_Specular->blockSignals(false);
    ui.green_Specular->blockSignals(true);
    ui.green_Specular->setSliderPosition(spec[1]);
    ui.green_Specular->blockSignals(false);
    ui.blue_Specular->blockSignals(true);
    ui.blue_Specular->setSliderPosition(spec[2]);
    ui.blue_Specular->blockSignals(false);
    ui.transparent_Specular->blockSignals(true);
    ui.transparent_Specular->setSliderPosition(spec[3]);
    ui.transparent_Specular->blockSignals(false);
    MathmodRef->lightSpecular[0]= Parameters->Specular[0]/100.0f;
    MathmodRef->lightSpecular[1]= Parameters->Specular[1]/100.0f;
    MathmodRef->lightSpecular[2]= Parameters->Specular[2]/100.0f;
    MathmodRef->lightSpecular[3]= Parameters->Specular[3]/100.0f;
}
void DrawingOptions::SetDiffuseValues(int *spec)
{
    ui.red_Diffuse->blockSignals(true);
    ui.red_Diffuse->setSliderPosition(spec[0]);
    ui.red_Diffuse->blockSignals(false);
    ui.green_Diffuse->blockSignals(true);
    ui.green_Diffuse->setSliderPosition(spec[1]);
    ui.green_Diffuse->blockSignals(false);
    ui.blue_Diffuse->blockSignals(true);
    ui.blue_Diffuse->setSliderPosition(spec[2]);
    ui.blue_Diffuse->blockSignals(false);
    ui.transparent_Diffuse->blockSignals(true);
    ui.transparent_Diffuse->setSliderPosition(spec[3]);
    ui.transparent_Diffuse->blockSignals(false);
    MathmodRef->lightDiffuse[0]= Parameters->Diffuse[0]/100.0f;
    MathmodRef->lightDiffuse[1]= Parameters->Diffuse[1]/100.0f;
    MathmodRef->lightDiffuse[2]= Parameters->Diffuse[2]/100.0f;
    MathmodRef->lightDiffuse[3]= Parameters->Diffuse[3]/100.0f;
}
void DrawingOptions::SetAmbientValues(int *spec)
{
    ui.red_Ambient->blockSignals(true);
    ui.red_Ambient->setSliderPosition(spec[0]);
    ui.red_Ambient->blockSignals(false);
    ui.green_Ambient->blockSignals(true);
    ui.green_Ambient->setSliderPosition(spec[1]);
    ui.green_Ambient->blockSignals(false);
    ui.blue_Ambient->blockSignals(true);
    ui.blue_Ambient->setSliderPosition(spec[2]);
    ui.blue_Ambient->blockSignals(false);
    ui.transparent_Ambient->blockSignals(true);
    ui.transparent_Ambient->setSliderPosition(spec[3]);
    ui.transparent_Ambient->blockSignals(false);
    MathmodRef->lightAmbient[0]= Parameters->Ambient[0]/100.0f;
    MathmodRef->lightAmbient[1]= Parameters->Ambient[1]/100.0f;
    MathmodRef->lightAmbient[2]= Parameters->Ambient[2]/100.0f;
    MathmodRef->lightAmbient[3]= Parameters->Ambient[3]/100.0f;
}

void DrawingOptions::SetThreadValues(int *thread)
{
    ui.ThreadNumberScrollBar->blockSignals(true);
    ui.ThreadNumberScrollBar->setSliderPosition(thread[0]);
    ui.ThreadNumberScrollBar->setMinimum(thread[1]);
    ui.ThreadNumberScrollBar->setMaximum(thread[2]);
    ui.ThreadgroupBox->setTitle(
        "Threads: " + QString::number(ui.ThreadNumberScrollBar->minimum()) +
        "  <  " + QString::number(thread[0]) + "  <  " +
        QString::number(ui.ThreadNumberScrollBar->maximum()));
    ui.ThreadNumberScrollBar->blockSignals(false);
}

void DrawingOptions::SetShininessValue(int shin)
{
    ui.ShininessScrollBar->blockSignals(true);
    ui.ShininessScrollBar->setSliderPosition(shin);
    ui.ShininessScrollBar->blockSignals(false);
    MathmodRef->LocalScene.shininess = Parameters->Shininess;
}

void DrawingOptions::SetglFrontFacingSupport()
{
    ui.GLFrontSurfaceSupport->blockSignals(true);
    ui.GLFrontSurfaceSupport->setChecked(false);
    ui.GLFrontSurfaceSupport->blockSignals(false);
    MathmodRef->LocalScene.glFrontFacingSupport = 0;
}

void DrawingOptions::on_red_Specular_valueChanged(int value)
{
    MathmodRef->redSpec(value);
    if (ui.GcheckBox->isChecked())
    {
        ui.green_Specular->blockSignals(true);
        ui.green_Specular->setSliderPosition(value);
        ui.green_Specular->blockSignals(false);
        MathmodRef->greenSpec(value);
    }
    if (ui.BcheckBox->isChecked())
    {
        ui.blue_Specular->blockSignals(true);
        ui.blue_Specular->setSliderPosition(value);
        ui.blue_Specular->blockSignals(false);
        MathmodRef->blueSpec(value);
    }
}

void DrawingOptions::on_green_Specular_valueChanged(int value)
{
    MathmodRef->greenSpec(value);
    if (ui.RcheckBox->isChecked())
    {
        ui.red_Specular->blockSignals(true);
        ui.red_Specular->setSliderPosition(value);
        ui.red_Specular->blockSignals(false);
        MathmodRef->redSpec(value);
    }
    if (ui.BcheckBox->isChecked())
    {
        ui.blue_Specular->blockSignals(true);
        ui.blue_Specular->setSliderPosition(value);
        ui.blue_Specular->blockSignals(false);
        MathmodRef->blueSpec(value);
    }
}

void DrawingOptions::on_blue_Specular_valueChanged(int value)
{
    MathmodRef->blueSpec(value);
    if (ui.GcheckBox->isChecked())
    {
        ui.green_Specular->blockSignals(true);
        ui.green_Specular->setSliderPosition(value);
        ui.green_Specular->blockSignals(false);
        MathmodRef->greenSpec(value);
    }
    if (ui.RcheckBox->isChecked())
    {
        ui.red_Specular->blockSignals(true);
        ui.red_Specular->setSliderPosition(value);
        ui.red_Specular->blockSignals(false);
        MathmodRef->redSpec(value);
    }
    //MathmodRef->InitSpecularParameters();
}

void DrawingOptions::on_transparent_Specular_valueChanged(int value)
{
    MathmodRef->transSpec(value);
}

void DrawingOptions::on_ShininessScrollBar_valueChanged(int value)
{
    MathmodRef->Shininess(value);
}

void DrawingOptions::on_ThreadNumberScrollBar_valueChanged(int value)
{
    MathmodRef->ParObjet->UpdateThredsNumber(uint(value));
    MathmodRef->IsoObjet->UpdateThredsNumber(uint(value));
    ui.ThreadgroupBox->setTitle(
        "Threads: " + QString::number(ui.ThreadNumberScrollBar->minimum()) +
        "  <  " + QString::number(value) + "  <  " +
        QString::number(ui.ThreadNumberScrollBar->maximum()));
}

void DrawingOptions::on_StopCalculationsButton_clicked()
{
    MathmodRef->IsoObjet->stopcalculations(true);
    MathmodRef->ParObjet->stopcalculations(true);
}

void DrawingOptions::on_stopButton_clicked()
{
    on_StopCalculationsButton_clicked();
}

void DrawingOptions::on_actionScripts_selection_triggered()
{
    select.show();
}

void DrawingOptions::on_actionAnimation_Rotation_triggered()
{
    MathmodRef->anim();
}

void DrawingOptions::on_actionMorph_use_t_parameter_triggered()
{
    MathmodRef->morph();
}

void DrawingOptions::on_TreeViewButton_clicked()
{
    ShowCurrentObjectTree = !ShowCurrentObjectTree;
    if (ShowCurrentObjectTree)
    {
        UpdateTreeObject();
        ui.ObjectClasseCurrent->show();
    }
    else
    {
        UpdateTreeObject();
        ui.ObjectClasseCurrent->hide();
    }
}

void DrawingOptions::on_ObjectClasseCurrent_clicked(const QModelIndex &idx)
{
    QModelIndex parentItem = idx.parent();
    if (!parentItem.isValid())
    {
        int row = idx.row();
        if (MathmodRef->RootObjet.CurrentParisoTreestruct.size() > 0 &&
                int(MathmodRef->RootObjet.CurrentParisoTreestruct.size()) > row)
            ui.parisocomboBox->setCurrentIndex(row);
    }
}

void DrawingOptions::on_parisocomboBox_currentIndexChanged(int index)
{
    if (index >= 0)
    {
        ModelType type = MathmodRef->RootObjet.CurrentParisoTreestruct[index].type;
        if (type == ISO_TYPE)
            UpdateIsoModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[index]);
        else if (type == PAR_TYPE)
            UpdatePar3DModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[index]);
        else if (type == PAR_4D_TYPE)
            UpdatePar4DModelDetailsPage(MathmodRef->RootObjet.CurrentParisoTreestruct[index]);
    }
}

void DrawingOptions::on_ApplypushButton_clicked()
{
    int maxisogrid = 0;
    bool IsInt=false;
    QString maxtxt= ui.IsoMaxGridLineEdit->text().replace(" ", "");
    maxisogrid = maxtxt.toInt(&IsInt, 10);
    if ( IsInt && maxisogrid != Parameters->IsoMaxGrid)
    {
        Parameters->IsoMaxGrid = maxisogrid;
        ui.Isogroupbox->setTitle("Grid/MaxGrid = (" +
                                 QString::number(ui.xyzg->value()) + "/" +
                                 QString::number(maxisogrid) + ")");
        ui.xyzg->blockSignals(true);
        ui.xyzg->setMaximum(maxisogrid);
        ui.xyzg->blockSignals(false);
    }
    else
    {
        QMessageBox msgBox;
        msgBox.setText("Invalid number");
        msgBox.exec();
    }
}

void DrawingOptions::updateParametricGridSliders(int maxpargrid)
{
    Parameters->ParMaxGrid = maxpargrid;
    ui.linecolumn_2->blockSignals(true);
    ui.linecolumn_2->setMaximum(int(maxpargrid));
    ui.linecolumn_2->blockSignals(false);
    ui.linecolumn_3->blockSignals(true);
    ui.linecolumn_3->setMaximum(int(maxpargrid));
    ui.linecolumn_3->blockSignals(false);
    ui.ParamgroupBox_3->setTitle("Grid(u,v)/MaxGrid = ("+ QString::number(ui.linecolumn_3->value()) +
                                 ", " + QString::number(ui.linecolumn_3->value()) +")/"+QString::number(maxpargrid));
    ui.ParamgroupBox_2->setTitle("Grid(u,v)/MaxGrid = ("+ QString::number(ui.linecolumn_2->value()) +
                                 ", " + QString::number(ui.linecolumn_2->value()) +")/"+QString::number(maxpargrid));
}

void DrawingOptions::on_ApplypushButton_2_clicked()
{
    int maxpargrid = 0;
    bool IsInt=false;
    QString maxtxt= ui.ParMaxGridLineEdit->text().replace(" ", "");
    maxpargrid = maxtxt.toInt(&IsInt, 10);
    if ( IsInt && maxpargrid != Parameters->ParMaxGrid)
        updateParametricGridSliders(maxpargrid);

    else
    {
        QMessageBox msgBox;
        msgBox.setText("Invalid number");
        msgBox.exec();
    }
}

void DrawingOptions::on_ApplypushButton_3_clicked()
{
    int maxpargrid = 0;
    bool IsInt=false;
    QString maxtxt= ui.ParMaxGridLineEdit_2->text().replace(" ", "");
    maxpargrid = maxtxt.toInt(&IsInt, 10);
    if ( IsInt && maxpargrid != Parameters->ParMaxGrid)
        updateParametricGridSliders(maxpargrid);
    else
    {
        QMessageBox msgBox;
        msgBox.setText("Invalid number");
        msgBox.exec();
    }
}

#include <QDesktopServices>
void DrawingOptions::on_actionDocumentation_triggered()
{
    QString link = "";
    link  = ((Parameters->docabsolutepath) == "" ?
    QApplication::applicationDirPath() + Parameters->docpartialpath :
    Parameters->docabsolutepath);
    link.contains("http") ? QDesktopServices::openUrl(link):
                            QDesktopServices::openUrl(QUrl(QUrl::fromLocalFile(link)));
}

void DrawingOptions::on_ScaleButton_clicked()
{
    bool valx=false, valy=false, valz=false;
    double fx = ui.lineEditSx->text().toDouble(&valx);
    double fy = ui.lineEditSy->text().toDouble(&valy);
    double fz = ui.lineEditSz->text().toDouble(&valz);
    if (valx && valy && valz)
    {
        MathmodRef->factx=fx;
        MathmodRef->facty=fy;
        MathmodRef->factz=fz;
    }
    else
    {
        QMessageBox msgBox;
        msgBox.setText("Invalid number");
        msgBox.exec();
    }
}

void DrawingOptions::on_ShowIsoComp_clicked()
{
    if(!ui.ShowIsoComp->isChecked())
    {
        ui.ShowIsoComp->setText("Show");
        if(!MathmodRef->LocalScene.componentsinfos.pariso)
            MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[IndexcurrentComponent]=false;
        else
            MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[MathmodRef->LocalScene.componentsinfos.NbComponentsType[0]+IndexcurrentComponent]=false;
    }
    else
    {
        ui.ShowIsoComp->setText("Hide");
        if(!MathmodRef->LocalScene.componentsinfos.pariso)
            MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[IndexcurrentComponent]=true;
        else
            MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[MathmodRef->LocalScene.componentsinfos.NbComponentsType[0]+IndexcurrentComponent]=true;
    }
    MathmodRef->update();
}

void DrawingOptions::on_ShowParComp_clicked()
{
    if(!ui.ShowParComp->isChecked())
    {
        ui.ShowParComp->setText("Show");
        MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[IndexcurrentComponent]=false;
    }
    else
    {
        ui.ShowParComp->setText("Hide");
        MathmodRef->LocalScene.componentsinfos.ShowParIsoCmp[IndexcurrentComponent]=true;
    }
    MathmodRef->update();
}

void DrawingOptions::on_actionAxe_triggered()
{
    MathmodRef->LocalScene.axe *=-1;
    MathmodRef->update();
}

void DrawingOptions::on_actionPlan_triggered()
{
    MathmodRef->LocalScene.plan *=-1;
    MathmodRef->update();
}

void DrawingOptions::on_red_Ambient_valueChanged(int value)
{
    MathmodRef->redAmb(value);
}

void DrawingOptions::on_green_Ambient_valueChanged(int value)
{
    MathmodRef->greenAmb(value);
}

void DrawingOptions::on_blue_Ambient_valueChanged(int value)
{
    MathmodRef->blueAmb(value);
}

void DrawingOptions::on_transparent_Ambient_valueChanged(int value)
{
    MathmodRef->transAmb(value);
}

void DrawingOptions::on_red_Diffuse_valueChanged(int value)
{
    MathmodRef->redDiff(value);
}

void DrawingOptions::on_green_Diffuse_valueChanged(int value)
{
    MathmodRef->greenDiff(value);
}

void DrawingOptions::on_blue_Diffuse_valueChanged(int value)
{
    MathmodRef->blueDiff(value);
}

void DrawingOptions::on_transparent_Diffuse_valueChanged(int value)
{
    MathmodRef->transDiff(value);
}

void DrawingOptions::on_GLFrontSurfaceSupport_clicked()
{
    if(!(ui.GLFrontSurfaceSupport->isChecked()))
        MathmodRef->glfrontfacesupp(0);
    else
        MathmodRef->glfrontfacesupp(1);
}

void DrawingOptions::on_actionbox_triggered()
{
    MathmodRef->boundingboxOk();
    MathmodRef->update();
}
